key: cord-0762959-zv5i4u9g authors: Tomas, Merve; Capanoglu, Esra; Bahrami, Akbar; Hosseini, Hamed; Akbari‐Alavijeh, Safoura; Shaddel, Rezvan; Rehman, Abdur; Rezaei, Atefe; Rashidinejad, Ali; Garavand, Farhad; Goudarzi, Mostafa; Jafari, Seid Mahdi title: The direct and indirect effects of bioactive compounds against coronavirus date: 2021-12-08 journal: Food Front DOI: 10.1002/fft2.119 sha: d4e3c3ae00df619d89939b23fa1d1b845cabf082 doc_id: 762959 cord_uid: zv5i4u9g Emerging viruses are known to pose a threat to humans in the world. COVID‐19, a newly emerging viral respiratory disease, can spread quickly from people to people via respiratory droplets, cough, sneeze, or exhale. Up to now, there are no specific therapies found for the treatment of COVID‐19. In this sense, the rising demand for effective antiviral drugs is stressed. The main goal of the present study is to cover the current literature about bioactive compounds (e.g., polyphenols, glucosinolates, carotenoids, minerals, vitamins, oligosaccharides, bioactive peptides, essential oils, and probiotics) with potential efficiency against COVID‐19, showing antiviral activities via the inhibition of coronavirus entry into the host cell, coronavirus enzymes, as well as the virus replication in human cells. In turn, these compounds can boost the immune system, helping fight against COVID‐19. Overall, it can be concluded that bioactives and the functional foods containing these compounds can be natural alternatives for boosting the immune system and defeating coronavirus. Overview of outbreaks associated with the important coronaviruses production (40%), odynophagia (39%), and myalgia have been observed for the infection with MERS-CoV (Baharoon & Memish, 2019) . Also, the infection with MERS-CoV has been significantly more associated with diarrhea compared with other acute respiratory conditions (Garbati et al., 2016) . The average of crude fatality rate for the MERS-CoV is 35% and 20% among primary cases and secondary cases, respectively (Alfaraj et al., 2019) . The age of above 60 years, male gender, diabetes mellitus, chronic lung and chronic renal diseases, and progressive lymphocytopenia are among major contributing factors in poor results regarding MERS-CoV infection (Degnah et al., 2020) . In high-risk courtiers, healthcare facility transmission has been the major cause of MERS-CoV infection, which is associated with the challenges in measuring the infection control as well as the late and nonefficient isolation of suspected cases. The control of infection in camels and the prevention of transmission from camel to human are the main preventive measures for controlling MERS-CoV (Baharoon & Memish, 2019) . The dromedary camels are the only confirmed animals that have been acting as the intermediate host for infection of human with MERS-CoV. The close contact with camel (in terms of their respiratory droplets, saliva, organs during slaughtering), as well as the consumption of their products (such as milk and unprocessed meat), can lead to the infection (Kandeil et al., 2019) . MERS-CoV can poorly be transmitted from human to human, and that is why the new MERS-CoV cases are predominantly restricted to the Arabian Peninsula and outbreaks outside that region are generally limited (Baharoon & Memish, 2019) . SARS-CoV is the causative agent of a sudden respiratory outbreak that occurred during [2002] [2003] , which belongs to the genus betacoronavirus of the family Coronaviridae. The first SARS-CoV case was detected in late 2002 in Guangdong Province, China, followed by the rapid spread of disease, resulting in a SARS-CoV outbreak in Hong Kong (in mid-February 2003) , and other outbreaks in 19 different countries, in which a total of 8,605 individuals became infected and 774 deaths were reported (Chow et al., 2003) . The palm civets, raccoon dogs, and horseshoe bats have been announced as the hosts of SARS-like CoVs. However, it is demonstrated that the horseshoe bats can be considered as the only reservoir hosts because they are widely distributed and are very mobile mammals with the previously proven role as the hosts of emergent RNA viruses (García-Salido et al., 2020a . In studying the potential relationship between SARS-CoV isolated from animals and humans, a 29-nucleotide deletion was observed for the SARS-CoV strain isolated from humans (rather than the isolate from civet) which indicated the one-way transmission of virus from animals to humans (Giannis et al., 2020) . Later, the genomic comparisons demonstrated that the recombination of SARS-CoV between viruses isolated from human and animal or between various animal viruses was unlikely, which ruled out natural or laboratory chimerism and indicated that the SARS-CoV was probably a zoonotic virus (da Silva et al., 2020) . The transmission through mucosal surfaces (with virus-laden body fluids), which are the primary respiratory secretions, is demonstrated for the transmission of the SARS-CoV from human to human. Large droplets of coughing and sneezing by a projection range of 1.0 m may have contributed into the airborne transmission of SARS-CoV (Tong, 2005) . The clinical features of SARS-CoV are associated with three phases-phase 1: the upper respiratory viral replication and viremia; phases 2 and 3: the lower respiratory tract viral replication; and phase 3: critical pulmonary injury (due to virus alone or in conjunction with immunological damage). SARS-CoV could cause a high incidence of ARDS and respiratory syndrome, resulting in a high rate of death, even in healthy young individuals (Lin et al., 2005) . The rate of fatality for 138 hospitalized infected individuals with SARS-CoV was 4.3% . However, the fatality rate for the large number of undetected mild infection cases could be below 1% (or even below 0.1%) . Clinically, SARS-CoV infection is characterized by fever, followed by respiratory symptoms that can potentially lead to progressive respiratory failure (Achak et al., 2020) . In most cases, for a specific coronavirus, only the cells of natural host species and a few closely related species can be infected, but the SARS-CoV has shown a high capacity in infecting diverse cell cultures (Giannis et al., 2020) . The cell line of human colorectal adenocarcinoma, African green monkey, and kidney cells could be infected only after 2-3 days with SARS-CoV, which clearly indicates its massive cytopathic effect (CPE) . The coronavirus disease (Covid-19) is a pathogenic viral infection caused by SARS-CoV-2, and rapidly spread around the world. The Emergency of International Concern on January 30, 2020, followed by raising its global risk assessment to "Very High" on February 28, 2020. Also, later, on March 11, 2020, Covid-19 outbreak was labeled a "pandemic," which shows the "alarming levels of spread and severity" for this crisis. As of November 24, 2020, over 58.9 million cases have been reported in more than 200 countries and territories, resulting in more than 1.3 million deaths, a death toll that is far beyond any other health crisis in modern history. The severity of public-health crisis associ-ated with the Covid-19, such as the draconian containment effortsquarantines, lockdowns, transportation bans, and restrictions on public assembly-has been producing a significant shock affecting the lifestyle of people and economy of many countries around the globe, which undoubtedly would be considered to be one of the biggest disasters facing humankind in modern history. The biggest crisis associated with this coronavirus is its highly transmittable capacities, which challenged the majority of countries significantly. SARS-CoV-2 has shown the basic reproduction number (R0) of spread from person to person of about 2.6, indicating the existence of an exponential rate in its infection growth (Runfeng et al., 2020) . Although COVID-19 is related to the SARS-CoV and MERS-CoV, COVID-19 presents several specific pathogenetic, clinical, and epidemiological characteristics that have not been completely understood to date . The genomic analysis revealing the phylogenetically relatedness of SARS-CoV-2 to SARS-like bat viruses (88% identity) indicates that most probably bats have been the primary reservoir (Hamid et al., 2020) . Although the intermediate source of origin and transfer from bats to humans is not known for now, the rapid transmission from human to human has been confirmed extensively (Shereen et al., 2020) . The reproduction number for COVID-19 is estimated to be in the range of 2.24 to 3.58 . The direct contact or droplets from coughing or sneezing from COVID-19infected persons are the main causes of person-to-person transmission of COVID-19. Also, there is no confirmed information regarding the potential transmission of this virus from mother to child (Rothan & Byrareddy, 2020) . The incubation period of infection with COVID-19 is about 5.2 days. Although COVID-19 has some similarities in its symptoms with other betacoronavirus-fever, dry cough, dyspnea, and ground-glass opacities on chest CT scans-it presents several unique clinical features . The COVID-19 infection can be differentiated through targeting the lower airway, which can be clear through tracing the upper respiratory symptoms (such as rhinorrhea, sneezing, and sore throat) (Mulangu et al., 2019) . Also, COVID-19 develops intestinal symptoms like diarrhea, but low percentage of patients infected with MERS-CoV or SARS-CoV had diarrhea (Huang et al., 2020; Rothan & Byrareddy, 2020) . Pneumonia in lungs and multiorgan failure are the severe complications for the COVID-19. The immune system plays an important factor in the severity of the pathogenesis of COVID-19. Immune response is crucial to control and defense coronavirus infections. Dysregulation in the immune system can lead to an unappropriated local and systemic immune responses and subsequently the rapid spread of the virus (Tahaghoghi-Hajghorbani et al., 2020) . SARS-CoV-2 infection impaired cellular immunity by reducing the activated T-cell markers, increasing expression of late activation markers including CD25 and PD-1 in both CD4 + and CD8 + T cells, reduction in the lymphocyte number, and enhancing proinflammatory cytokines and even cytokine storm (Tahaghoghi-Hajghorbani et al., 2020; Yang et al., 2020a) . Moreover, it is believed that dysregulated host immune response and cytokine storm are correlated with disease severity and poor prognosis during SARS-CoV and MERS-CoV infection (Vafaeinezhad et al., 2021) . Blot et al. (2020) investigated the immune response and results between non-COVID-19 and COVID-19 patients with severe pneumonia. They reported that COVID-19 patients had higher plasma granulocytemacrophage colony-stimulating factor (GM-CSF) and C-X-C motif chemokine ligand 10 (CXCL10). These cytokines could represent the dysregulated immune response in severe COVID-19, as well as promising therapeutic targets. In another study, Qin et al. (2020) observed that severe cases had lower lymphocyte counts, higher leukocyte counts and neutrophil-lymphocyte ratio, as well as lower percentages of monocytes, eosinophils, and basophils. In recent times, extensive investigations have been carried out to explore the antiviral activity of different bioactive compounds from natural products, such as plants, fruits, vegetables, grains, fish, and meat, as a prospective source of different bioactives. Moreover, many of the natural products have polypharmacology or a promiscuous mechanism of action. The polypharmacology of natural products might enable them to surpass the use of the traditional single-target drugs in terms of efficiency (Ho et al., 2018) . In addition, the antiviral effect could be affected by the synergistic or additive effect from multiple components. For example, carrageenan and griffithsin combinations showed synergistic activity against SARS-CoV-1 and 2, including against recent SARS-CoV-2 mutations (Alsaidi et al., 2021) . In this section, we discuss a wide range of bioactives with antiviral actions against coronavirus , as well as their potent potential for further application in clinical practices. (Arts et al., 2000; Nile & Park, 2014; Zhou et al., 2020) . Cruciferous vegetables, leafy green vegetables, and allium vegetables have all been known as rich sources of polyphenolic compounds (Steinmetz & Potter, 1996) . The type of phenolic compounds found in each plant or a variety of plants is also different. For example, catechin and epicatechin are the major potent flavanols found in fruits, whereas epigallocatechin and epigallocatechin gallate (EGCG) exist predominantly in tea (specifically, green tea), grapes, and some seeds of leguminous plants (Arts et al., 2000; Rashidinejad et al., 2016 Rashidinejad et al., , 2017 Although several studies have already shown that protease inhibitors such as polyphenolic compounds can be very effective in controlling virus-induced infections (Liu et al., 2008 (Liu et al., , 2020b Mohammadi & Shaghaghi, 2020; Shaghaghi, 2020; Yang et al., 2020b) , so far, there is not enough evidence from in vivo studies reporting the associations between polyphenols and downregulation of ACE2 expression related to COVID-19. Nevertheless, it has recently been reported that polyphenols may interact with SARS-CoV-2 viral proteins and the corresponding cellular targets (Paraiso et al., 2020) . Therefore, the possible modulation of immune response by these natural bioactive compounds can be considered as a beneficial aspect toward protection of human body against COVID-19. Paraiso et al. (2020) showed the effect of polyphenols on various steps of the life cycle of SARS-CoV-2. Based on this theory, phenolic compounds such as resveratrol, curcumin, and emodin can potentially inhibit binding of SARS-CoV-2 spike protein to ACE2 receptor, by which the viral entry into the host cell is prevented. This, in turn, can inhibit the viral RNA replication and protein processing (Paraiso et al., 2020) . The use of polyphenolic compounds for the prophylaxis and treatment of COVID-19 has also been reported in a recent study (Mhatre et al., 2021) that reviewed antiviral activities of major polyphenols in both green and black tea. Catechins from green tea, especially EGCG, and theaflavins from black tea, especially theaflavin-3,3′-digallate (TF3), have shown a strong binding with receptors responsible for COVID-19 (Mhatre et al., 2021) . Turmeric and its most active bioactive (i.e., curcumin) have been suggested to be feasibly tested as preventive and/or treatment options for COVID-19 patients (Verma, 2020) . This is supported by the evidence related to the action of curcumin at an early step in SARS-CoV-2 infection via the inhibition of its entry into the host cell, besides the effect on the inhibition of the virus replication in human cells. In addition, phenolic compounds such as curcumin with high antioxidant activity are known as potent antiinflammatory agents (Chainani-Wu, 2003) , meaning that this can be a promising approach toward the relief of COVID-19 symptoms. Antiviral activity of the polyphenols from both green and black teas in prophylaxis and treatment of COVID-19 has been reviewed very recently (Mhatre et al., 2021) . Elsholtzia rugulosa has been investigated (Liu et al., 2008) . The in vitro antiviral assay using a CPE reduction method showed that five active polyphenolic compounds in Elsholtzia rugulosa, including apigenin, luteolin, apiin, galuteolin, and luteolin 3′-glucuronyl acid methyl ester, pre- Therefore, although it is still too early to have robust in vivo evidence for the efficacy of polyphenols against COVID-19 pandemic, the primary investigations so far can pave the way for systematic and advanced experimental research for the investigation of the efficacy of polyphenolic compounds from natural sources for the prevention and/or treatment of COVID-19. Nevertheless, it should be noted that numerous factors can affect the antioxidant properties of polyphenols, which should also be considered when studying their antiviral activity. These include the subsequent metabolism and absorption in the digestive tract, which governs their biological characteristics (Tarko et al., 2013) . Food polyphenols (in their native form) mainly exist in forms of polymers, esters, and glycosides. These compounds cannot be absorbed as such, meaning that they need to be hydrolyzed by endogenous enzymes and/or microflora enzymes in the digestive tract (Williamson & Clifford, 2010) . The nature of the food matrix, pH, the gastrointestinal environment, and the presence of bile salts can also significantly affect the metabolism and bioefficacy of polyphenols (Manach et al., 2004) , so delivery/encapsulation systems can be an effective strategy. Glucosinolates are a large group of sulfur-containing glucosides synthesized as secondary metabolites in plants. Glucosinolates are anionic, nonvolatile, water-soluble and thermostable compounds. These compounds are found in cruciferous plants mainly Brassicaceae families such as broccoli, Brussels sprout, cabbages, and cauliflower. The main glucosinolates that are presented in Brassica vegetables include sinigrin, gluconapin, glucobrassicanapin, glucoiberverin, glucoiberin, glucoraphanin, glucoerucin, progoitrin, napoleiferin, glucotropaeolin, gluconasturtin, glucobrassicin, 4-methoxyglucobrassicin, and neoglucobrassicin (Horbowicz, 2003) . Glucosinolates and their breakdown products are responsible for the pungent flavor in these vegetables. When these vegetables are consumed without processing, the myrosinase enzyme (also known as βthioglucosidase) that is present in these vegetables can hydrolyze glucosinolates in the small intestine to different compounds such as isothiocyanates, indole-3-carbinols, nitriles, oxazolidine-2-thiones, and sulforaphane. After processing the vegetables, such as by cooking, the myrosinase enzyme is inactivated and glucosinolates are broken down by the enzyme of microbiota in the colon to other compounds such as isothiocyanates and glucose. Isothiocyanates are absorbed from the colon and small bowel and can hinder apoptosis and mitosis in human cancer cells especially lung cancers and the alimentary tract (Barba et al., 2016; Horbowicz, 2003; Johnson, 2002; Saladino et al., 2017) . Verhoeven et al. (1996) concluded from a meta-analysis study that brassica vegetables can protect against different cancers such as lung, rectum, stomach, and colon. Glucosinolates have antioxidant, anticarcinogenic, and antimicrobial properties and can also be used as natural agents for food preservation (Saavedra et al., 2010) . The antimicrobial activity of glucosinolates and their derivatives has been proved in many studies. These com- -Isatis indigotica root-derived compounds and the water extract of Isatis indigotica showed inhibitory effect on the SARS coronavirus 3C-like protease -Sinigrin as a glucosinolate compound in Isatis indigotica root showed high efficacy with IC 50 = 217 μM in blocking the cleavage processing of 3C-like protease (Lin et al., 2005) 2017). Some of the studies have also confirmed the antiviral activity of glucosinolates (Table 1) . Other sources such as Isatidis Radix (a traditional Chinese medicine belonging to the family Cruciferae) as an herbal remedy has glucosinolate in its structure and have shown antiviral activity (Xie et al., 2011; Zhang et al., 2013) . There are three main active ingredients in Isatidis Radix, alkaloid compounds that mainly consist of epigoitrin (one of the degradation products of glucosinolate isomers), organic acids such as salicylic acid, and total lignans represented by clemastanin (Zuo et al., 2007) . It is reported that Isatidis Radix has high efficacy against respiratory syncytial virus (RSV)-induced pneumonia; however, its mechanism is not clear. Xu et al. (2019) reported that active ingredients of Isatidis Radix can show antiviral activity alone or in combination synergistically. Carotenoids, a wide range of organic pigments (including lycopene, αcarotene, β-cryptoxanthin, β-carotene, zeaxanthin, and lutein), are presented broadly in nature (Rehman et al., 2020b) . Their wide-ranging bioactivities, including antiviral, antidiabetic, anti-inflammatory, antiaging, cardioprotective, anticancer, have gained much acceptance and extremely supported via a number of studies (Ashraf et al., 2020; Giuffrida et al., 2020) . Carotenoids belong to the diverse family of organic pigments, including red, orange, and yellow, that have the capability to absorb the light around 500 nm. They are not synthesized by humans; however, their needs are only fulfilled by consuming diets. The most abundant sources of more than 40 carotenoids are plants, photosynthetic organisms, flowers, fruits, algae, and few yeasts. Because of having diverse structural arrangements, they retain plenty of numerous biological functions that can maintain human health (Britton, 2020) . The defensive properties of carotenoids against several viruses that can cause cancer, eye diseases, heart disease, and microbial infection have successfully been proposed in recent studies. More interestingly, the leading role of carotenoids being antiviral, antioxidant, and potent regulators of the immune response system has been documented (Mozaffarieh et al., 2003; Sesso et al., 2003) . Lycopene is known to be one of the major carotenoids in the diet that offers red color mostly to the vegetables and fruits. Dietary intake of tomatoes, containing massive amount of lycopene, is considered the foremost tool to reduce the risks of chronic diseases (Ashraf et al., 2020) . Therapeutically, antioxidant attributes of lycopene can provide protection to the cells from antagonistic results caused by any kinds of inflammation. As an example, it has been reported that lycopene plays a vital role in defeating airway inflammation caused by rhinovirus through decreasing the emancipate of interleukin-6 and interferon- (Yadav et al., 2002) . In another study, the powerful therapeutic antiviral activity of the extracted carotenoids was explored in contradiction of HBV and HCV by preventing HBV DNA-dependent DNA polymerase and HCV NS5B polymerase, which ultimately overwhelms HBV and HCV replication (Hegazy et al., 2020) . Lutein is one of two major carotenoids found in dark-green vegetables, such as kale, spinach, and broccoli. Foods such as egg yolk, peppers, and grapes are also good sources of lutein. Antiviral activity of lutein against hepatitis B has also been reported, as it inhibits transcription of the virus (Pang et al., 2010) . The main active compound of turmeric is curcumin. Curcumin has strong anti-inflammatory properties, and various animal studies confirmed that it has the potential to improve immune function (Rehman et al., 2019) . Astaxanthin has well-documented anti-inflammatory and immune-stimulating effects (Rehman et al., 2020a) . Dietary supplementation with astaxanthin significantly increased levels of antioxidant enzymes such as glutathione peroxidase and catalase superoxide dismutase in rats (Ambati et al., 2014; Rao et al., 2013) . Astaxanthin also improved antibody production, as testified in older animals, signifying that this carotenoid supplementation could be more useful in restoring humoral immune response (Okai & HigashiOkai, 1996) . Now it is clear that many carotenoids found in foods promote the immune system and have strong antioxidant activity; some have even shown direct antiviral activity. The mechanisms of action and molecular targets are still unidentified, so comprehensive studies of these compounds are required to develop them as future therapeutic drugs for the treatment of COVID-19. Human diet consists of a wide brand of minerals (micronutrients) such as Fe, Zn, and Ca, and they have therapeutic potential; however, they are playing a crucial role in boosting the immune system and preventing the viral infections, as well as preserving the homeostasis process in human body. Additionally, the abovementioned micronutrients have successfully been investigated by numerous scientists in order to explore their pharmacological attributes, including antiviral, antiinflammatory, anticancer, antioxidant, and antidiabetic characteristics (Gharibzahedi & Jafari, 2017) . Collectively, all micronutrients are considered very necessary for several reasons, specifically owing to their and antiviral and antiinflammatory properties. Zinc is a trace element essential, aids in boosting the immune system, supporting the body growth, and healing the wounds. To date, it is reported that deficiency of Zn leads toward severe immune dysfunctions (Wessels & Rink, 2020) . Interestingly, numerous studies have recently reported a great loss in human senses, such as smelling and tasting senses in the start of COVID-19infected patients (Keyhan et al., 2020; Lechien et al., 2020) . According to the previous literatures based on zinc deficiency, it has proved that loss in taste could be due to zinc COVID-19-infected patients, and supplementation of zinc has displayed outstanding results in curing the loss of taste (Doty, 2019; Yagi et al., 2013) . Collectively, the loss in taste and smell of COVID-19-infected patients may be associated with zinc deficiency. Obviously, zinc is an effective inhibitor of several RNA viruses like SARS-CoV (Velthuis et al., 2010) . Such inhibiting approach of zinc in the repetition of COVID-19, it is proposed that zinc may have a lot of positive consequences for COVID-19-infected patients meanwhile zinc supplements are easily existing in the world markets. Zinc deficiency significantly affected the ability of our immune system to work properly, which resulted in an increased risk of infection, including pneumonia (Shah et al., 2016; Wang et al., 2020) . Various studies have revealed that supplements of zinc may protect against respiratory tract infections, such as the common cold (Read et al., 2019) . Around 2 billion people worldwide are affected by zinc deficiency, which is very common in older adults (Wessels et al., 2017) . In a recent study, children with acute lower respiratory tract infections in various hospitals were given 30 mg of zinc per day that resulted in decreased total duration of infection and hospital stay duration by an average of two days in comparison with a placebo group (Rerksuppaphol & Rerksuppaphol, 2019) . Although supplements of zinc exist in the market, the best way to get the benefits of this mineral is by including it in your daily diet. Experts recommend 11 mg of zinc per day for men and 8 mg for women during the flu and cold seasons. Dietary sources of zinc include meat, shellfish, chickpeas, lentils, beans, nuts, dairy, eggs, and whole grains. Selenium is an essential mineral for immune health. Selenium has been identified as a protective factor against some types of viruses, such as HIV (Baum et al., 2000) .The best source of selenium is whole grains, yogurt, milk, meat, fish, shellfish, eggs, etc. Consumption of functional foods rich in zinc and selenium could contribute in reducing the COVID-19 risks. Copper, an imperative mineral, is equally important for both host and pathogen during viral infections. Copper has the capability in involving the bioactivities of following blood cells, including B cells, macrophages, and neutrophils natural killer (NK) cells (Raha et al., 2020) . These blood cells have potent potential in terms of killing infectious microbes as well as have ability to produce specific antibodies in contradiction of pathogens (Iakovidis et al., 2011) . Copper-deficient individuals' medical reports had showed an extraordinary vulnerability to infections accredited to the reduced quantity and imperfect activities of blood cell lines. In addition, copper has the ability of destroying several viruses, including SARS-CoV-2 (Wazir & Ghobrial, 2017) . Considering the rapid spread of COVID-19 and since no drugs or vaccines provide 100% protection, it is important to boost the immune system to be able to fight against the COVID-19. Based on accessible facts and figures, we assume that copper-enriched foods can boost up immunity of humans. Among all micronutrients in fruits and vegetables, vitamins, mainly vitamins A, B, C, D, and E, are responsible for immune reactions and have shown significant antiviral effects against the novel coronavirus (Calder et al., 2020) . It has been proposed that the use of these vitamins could be sufficient to prevent and also treat the viral infections caused by SARS-CoV-2 (Gasmi et al., 2020) . The water-soluble and fatsoluble vitamins with proven antiviral effects will be highlighted in the following subsections ( (Shakoor et al., 2021) . Additionally, the symptoms of altitude sickness and pulmonary edema, which are commonly prevented by prescription of acetazolamide through the inhibition of carbonic anhydrase isoenzymes, and further elevation of oxygen levels have been observed in COVID-19 patients. Thiamine also acts as an inhibitor of carbonic anhydrase isoenzyme. Therefore, giving high doses of thiamine at early stages of COVID-19 could decrease hospitalization and limit hypoxia (Shakoor et al., 2021) . Vitamin B2 or riboflavin is neces-sary for the energy metabolism of cells . It has been reported that vitamin B2 along with UV light decreased the concentration of MERS-CoV in human plasma (Keil et al., 2016) . Riboflavin and UV light result in an irreversible damage to DNA and RNA, disabling microbial pathogens to replicate (Shakoor et al., 2021) . Vitamin B3 or niacin/nicotinamide is one of the components of nicotinamide adenine dinucleotide (NAD) and NAD-phosphate, which are vital through chronic systemic inflammation. NAD + is released as a coenzyme at the early stages of inflammation in different metabolic pathways, and its enhanced levels are required to treat a broad range of pathophysiological states. The immunomodulatory properties of NAD + may result in decreased proinflammatory cytokines, TNF-α, IL-1β, and IL-6 (Boergeling & Ludwig, 2017) . According to the recent evidence, targeting IL-6 in patients with COVID-19 might be helpful to control the inflammatory storm (Liu et al., 2020a) . Additionally, nicotinamide can decrease viral replication and strengthen the body's immune system. So, niacin would be a good adjunct treatment for COVID-19 patients (Shakoor et al., 2021) . Moreover, vitamin B3 can significantly inhibit the neutrophil infiltration into the injured lungs with a considerable anti-inflammatory effect. Nevertheless, this treatment resulted in the development of hypoxemia (Jones et al., 2015) . There are limited studies on vitamin B5 or pantothenic acid on the immune system. However, it has been reported that vitamin B5 may decrease inflammation (Mikkelsen & Apostolopoulos, 2019) . Furthermore, vitamin B6 or pyridoxine is required for protein metabolism and participates in more than 100 reactions in different tissues as well as immune responses to viral infections, and its deficiency may lead to immune dysregulation. So, vitamin B6 is an ideal supplement for virusinfected patients to improve their immune system and could be considered as a basic option for the treatment of the novel coronavirus . A recent preprint has suggested that vitamin B6 supplementation relieves the symptoms of COVID-19 by regulation of immune responses, reduction of proinflammatory cytokines, maintenance of endothelial integrity, and prevention of hypercoagulability (Desbarats, 2020) . Due to the approved effect of vitamin B6 on the upregulation of IL-10 as an immunosuppressive and anti-inflammatory cytokine, it may dampen the inflammation and cytokine storm caused by the COVID-19 virus (Shakoor et al., 2021) . IBV and reovirus (RV) In vitro (chicken) Infection with IBV and RV led to the acute respiratory disease in chickens and the infection was more serious in vitamin A-deficient chickens. This group showed a higher severity and frequency of the symptoms. (West et al., 1992) Vitamin E Common cold viruses In vivo (clinical) Protective effect of vitamin E supplementation was observed on upper respiratory tract infections, especially the common cold. (Meydani et al., 2004) be fundamental in COVID-19 cases with gut microflora dysbiosis (Zuo et al., 2020) . A combination of vitamin B12/magnesium/vitamin D in older COVID-19 patients was significantly associated with a decreased clinical deterioration implicating oxygen support or intensive care. However, further randomized controlled trials are needed to find novel combinations with more efficient effects in ameliorating the severity of symptoms in COVID-19 patients (Tan et al., 2020b) . Vitamin C or ascorbic acid is another water-soluble vitamin, and its commontan sources are citrus fruits, kiwi, yams, broccoli, strawberries, and melons. The recommended intake dosage of vitamin C for adults is 60-90 mg/day (Chowdhury, 2020) . Vitamin C is known for its essential role as an antioxidant and in immune functions, which can provide protection against coronavirus infection (Hemila, 2017) . For instance, it has been reported that vitamin C enhanced the resistance of chick-embryo ciliated tracheal organ cultures to infection by an avian coronavirus (Atherton et al., 1978) . Another role of vitamin C is acting as an antihistamine agent to improve flu-like symptoms, such as a running nose, sneezing, and swollen sinuses . Additionally, human trials have revealed that vitamin Csupplemented groups showed a lower incidence of pneumonia, which confirms that vitamin C may inhibit the susceptibility to respiratory tract infections (Hemila, 1997) . Vitamin C exerts its antiviral characteristics via supporting the lymphocyte activity, enhancing the production of interferon-α, decreasing inflammation, modulating cytokines, restoring mitochondrial function, and improving endothelial dysfunction. It has also been suggested that vitamin C might be directly viricidal (Biancatelli et al., 2020) . High dose of vitamin C has also been successfully applied in the treatment of moderate to severe SARS-Cov-2 patients in China. Using 10-20 g of vitamin C per day led to a better oxygenation index in real time, and all of the patients were cured and discharged. Considering that high dosage of vitamin C is safe, researchers and healthcare professionals would better take this opportunity for its potential use in the treatment of Covid-19 (Cheng, 2020 ). Vitamin A with three active forms, such as retinal, retinol, and retinoic acid, is commonly found in liver, eggs, oily fish, carrots, orange fruits, fortified margarine, dairy products, tomato juice, green and yellow vegetables, and its recommended daily intake is 3000-5000 international unit (IU) for adults. Vitamin A has also been called an "anti-infective" vitamin because its deficiency leads to an impaired immune system. Vitamin A supplementation decreased the symptoms and mortality of various infectious diseases . It has also been reported that deficiency of vitamin A in diets might endanger the efficiency of vaccines made by an inactivated bovine coronavirus (Jee et al., 2013) . Vitamin A and its derivatives can facilitate the modulation of innate immunity, barrier function, and enhancing the maturation and maintaining of NK cells such as dendritic cell and T helper 1 or 2 lymphocytes (Chowdhury, 2020) . Many systematic reviews have supported that vitamin A could improve the symptoms of acute pneumonia and also enhanced the clinical responses and decreased the length of hospital stay (Hu et al., 2018) . Overall, vitamin A could be a promising choice for the prevention of lung injuries and the treatment of novel coronavirus . Vitamin D is commonly supplied by sunlight, liver, eggs, fortified margarine and dairy products, and oily fish, and the recommended daily intake is 400-1000 IU for adults. The active form of this vitamin is 1,25-dihydroxyvitamin D3 with approved immune-regulatory properties. The involved mechanisms of immunomodulatory effects are complex. However, deficiency of vitamin D was associated with respiratory tract infections (Chowdhury, 2020) . In a systematic review, it has been reported that the risk of pneumonia could be elevated with a defi- (Grant et al., 2020) . Cytokine storm can be induced by the innate immune system causing the inflammatory and anti-inflammatory responses in COVID-19 cases. So, there is a direct relation between the function of vitamin D and the level of immunity in patients (Huang et al., 2020) . As a preventive measure, it is proposed that people at risk of COVID-19 take 10,000 IU/d of vitamin D3 for a few weeks to swiftly raise concentration of 25(OH)D, followed by a dose of 5000 IU/d. The target should be to elevate 25(OH)D concentrations up to 40-60 ng/mL. As a therapeutic measure, higher vitamin D3 dosage might be beneficial. However, large population investigations and randomized controlled trials should be organized to study these recommendations (Grant et al., 2020) . Vitamin E, including tocopherols and tocotrienols, is commonly found in plant oils (e.g., corn, soy, olive), seeds, nuts, and wheat germ. The recommended daily intake of vitamin E is 15-20 mg per day for adults (Chowdhury, 2020) . Vitamin E is also significantly effective in the reduction of oxidative stress via blocking the free radicals because of its antioxidant characteristics (Galmes et al., 2018 (Farshi et al., 2020) . It has been proven that many mammalian viruses have developed to utilize glycans as a candidate for host cell receptors, and the probable association between coronavirus and glycans, which have been expressed on the surface of host cells, cannot be ignored. These phenomena can be used to design the glycans and specially oligo/polysaccharides with potent behavior as decoy receptors for the coronavirus (Walsh et al., 2020) . Polysaccharides are high-molecular-weight compounds extracted mostly from plants, algae, or animals. There are various bioactive polysaccharides with different sources, including cellulose, hemicelluloses (e.g., xylans, galactomannans and glucomannans), chitin, and chitosan, alginate, carrageenan, and lentinan (Bhatia et al., 2019) . Some known polysaccharides such as chitosan, carrageenan, β-glucan, astragalus polysaccharide, and fucoidan, have shown considerable antiviral activity (Bhatia et al., 2019; Chen et al., 2020; Huang et al., 2016) . Particularly, sulfated polysaccharides can block the positively charged receptors on the surface of viruses and subsequently prevent the binding process to heparan sulfate proteoglycan that is placed on the cell surface, which may lead to inhibition of the entry process of the virus to the host cell. Nevertheless, the antiviral characteristics of polysaccharides not only depend on their charge density but also on their precise structural properties that are critical . Further, some of known antiviral polysaccharides are highlighted (Table 3) . Carrageenan as sulfated linear polysaccharides extracted from red algae and made of repeating disaccharide units of β-Dgalactopyranose, α-galactopyranose, and 3,6-anhydro-α-galactopyranose. Carrageenan antiviral effect is due to its primary prevention of the entry or the binding of virions into the host cells . In a recent study, some marine sulfated polysaccharides were evaluated regarding their inhibitory activity against coronavirus, and among them fucoidan, and iota-carrageenan, and sea cucumber sulfated polysaccharide exhibited a significant antiviral effect at concentrations of 3.90-500 μg/mL. The polysaccharides could be applied to prevent and treat COVID-19 (Song et al., 2020) . Alginate, a linear and acidic polysaccharide derived from brown algae, is composed of α-L-guluronic acid and β-D-mannuronic acid. Alginate is a natural polysaccharide with approved immune activator property that has recently been proposed as a therapeutic regime for β-Glucan can be derived from different sources, such as algae, fungi, yeast, and plant, and has been well documented regarding immunostimulatory properties. The activation of β-glucan-specific receptors on neutrophils, macrophages, and NK cells is responsible for the enhanced activities of the innate and specific immune system (Murphy et al., 2008) . Both in vitro and in vivo studies revealed that the immunostimulatory effect of β-glucan depends on the molecular weight, structure, and the number of branches (Khan et al., 2018) . Lentinan in Lentinus edodes as a widely edible mushroom composed of a β-glucan backbone and glucosyl-branching units ended by galactosyl or mannosyl residues. Typically, mushrooms are known as an essential source of polysaccharides with immunomodulatory effects (Suwannarach et al., 2020) . Lentinan, an extensively investigated polysaccharide with approved immunomodulatory processes, has been widely applied as a dietary supplement or alternative medicine Zhang et al., 2011) . Lentinan can downregulate the expression of IL-2, IL-11, and TNF-α and upregulate the expression of IFN-γ and IFN-1 after In vitro (LLC-Mk2 cells) The chitosan derivative inhibited the interaction of studied coronaviruses with their receptor and thus blocked their entry into the cells. (Milewska et al., 2016) Chitosan Avian influenza virus A (H5N2, H5N1, H5N2, H5N3) In vivo (mice) Chitosan can be a promising adjuvant candidate for inactivated influenza vaccines. (Ghendon et al., 2009) Lentinan HIV In vivo (HIV patients) Lentinan qualifies as an ideal antiviral due to the stimulation of significant increase in CD4 levels in HIV-infected patients. (Gordon et al., 1995) Astragalus membranaceus polysacharide Gamma-herpesvirus 4 In vitro (Raji cells) The polysaccharide significantly enhanced the EBV lytic cycle in a concentration of 30 μg/mL, which indicated its potential usage as an antiviral drug. (Guo et al., 2014) Iota-carrageenan Human rhinovirus, human coronavirus, and influenza A virus In vivo (clinical trials) Use of carrageenan nasal spray in patients suffering from viral common cold decreased the duration and relapses of symptoms of disease and improved the viral clearance. (Koenighofer et al., 2014) Milk oligosaccharides Human rotavirus strains In vitro (MA104 cells) Milk oligosaccharides diminished the infectivity of human rotaviruses in vitro with confirmed antiviral effect. (Laucirica et al., 2017) Fructan from Chikuyo-Sekko-To In vitro (RAW264.7 cells); in vivo (mice) The extracted polysaccharide had modulatory effects on nitric oxide production and also induction of several cytokine mRNA expression, including IL-1β, IL-6, IL-10, and TNF-α. (Lee et al., 2012) Fructan from Welsh onion (Allium fistulosum L.) In vitro (MDCK cells); in vivo (mice) The polysaccharide improved the level of neutralizing antibodies against infection by influenza A virus. (Lee et al., 2012) Oat fiber β-glucan Herpes simplex virus type 1 In vivo (mice) Macrophages are partially responsible for the antiviral effects of oat β-glucan. (Murphy et al., 2008) Fucoidan from brown algae Kjellmaniella crassifolia Fucoidan possessed antiviral activities both in vitro and in vivo, and could block the viral invasion and release through the cellular EGFR pathway. (W. Human milk oligosaccharides In vitro (MA-104 cells); in vivo (piglets) Human milk oligosaccharides inhibited the rotavirus infectivity in vitro and also decreased NSP4 replication through the acute rotavirus infection in vivo. (Hester et al., 2013) Milk oligosaccharides Human rotavirus strains In vitro (MA104 cells) Milk oligosaccharides decreased the infectivity in MA104 cells by human rotaviruses. So, the addition of the oligosaccharides may be beneficial in infant formula. (Laucirica et al., 2017) κ-carrageenan oligosaccharides Carrageenan oligosaccharides and their sulfated derivatives had an ideal inhibitory impact on replication of influenza A virus both in vitro and in vivo. exposure to the hematopoietic necrosis virus, which could be attributed to its ability in regulating the specific immunity and innate immune responses (Ren et al., 2018) . The polysaccharides may react directly via preventing the adsorption and uptake of the viruses into the cells or inhibiting the viral enzymes (Khan et al., 2018) . Fructans are water-soluble compounds naturally found in flowering plants, e.g., tomato, onion, garlic, rye, banana, chicory, barley, dragon fruit, asparagus, and honey. Both long-chain fructans (inulin: DP > 10) and short-chain ones (fructooligosaccharides: DP < 10) are well-known prebiotic compounds exerting overall health effects by stimulation of the proliferation and growth of beneficial intestinal bacteria (Dobrange et al., 2019) . Their immunomodulatory function is dependent on Tolllike receptors (TLR 2, 4, 5, 7, 8) . After binding to the receptors, some signaling pathways might be triggered, which is dependent on the nuclear factor NF-κB, peptidoglycan recognition protein 3 (PGlyRP3), Oligosaccharides as low-molecular-weight carbohydrates between mono-and polysaccharides can be obtained from natural sources or chemically synthesized from disaccharides as well as the hydrolyzation of polysaccharides. The special properties of oligosaccharides including low-viscosity and high-solvency at neutral pH, nonallergenic, nontoxic, disease-preventing, and health-promoting characteristics improved their potential to be used as pharmaceuticals and drugs (Ji et al., 2011) . Some important bioactive oligosaccharides include xylooligosaccharides, fructooligosaccharides, β-glucan oligosaccharides, galactooligosaccharides, mannan oligosaccharides, pectic oligosaccharides, iso-maltooligosaccharides, arabinooligosaccharides, chitosan oligosaccharides, algae-derived marine oligosaccharides, and human milk oligosaccharides, etc. These oligosaccharides are naturally present in milk, fruits, honey, lentils, sugarcane juice, and vegetables (Bhatia et al., 2019) . Subsequently, some potentially known antiviral oligosaccharides are discussed. Xylooligosaccharides have a critical role in the development of the oligosaccharides market. Its cost is quite variable, which could be due to the diverse purity. Different hemicellulosic sources such as Bengal gram husk, corn stalks, corn cob, wheat bran and straw, pigeon pea stalks, barley hulls, sugarcane bagasse, green coconut husks, and algal sources have been identified for the production of xylooligosaccharides. The structure is composed of 2-20 units of xylose joint by β-1,4-xylosidic linkage (Belorkar & Gupta, 2016; Bhatia et al., 2019) . The main bioactive roles related to the xylooligosaccharides have been reported as antioxidant, prebiotic, gelling agent, treatment of diabetes, antitumor, and antiviral agent (Suwannarach et al., 2020) . Sulfated xylooligosaccharides extracted from Red seaweed Nothogenia fastigiata were found to show antiviral activity against types 1 and 2 of herpes simplex virus . The antiviral effect of chitosan oligosaccharides involves the activity of macrophages, which can enhance the production of active oxygen species and subsequent viral destruction. Another suggested mechanism is related to the interactions between blood leucocytes and viral coat receptors. The positive relationship between the antiviral activity of chitosan oligosaccharides and their positively charged groups has also been proven (Ji et al., 2011) . Carrageenan oligosaccharide with exclusive properties, such as abundance, nontoxicity, and biodegradability, can be used as biocompatible reductants for green synthesis of gold nanoparticles . The oligosaccharide capped gold nanoparticles can be loaded by S or N protein obtained from coronavirus and be applied for vaccine designation . Bioactive peptides (consisting of 3-20 amino acid residues) and proteins (generally consisting of more than 20 amino acids) are functional food ingredients that offer several advantageous bioactivities, such as antioxidant, antihypertensive, antimicrobial, antidiabetic, immunomodulatory, antiobesity, cytomodulatory, and antithrombotic properties (Goudarzi & Madadlou, 2013; Sarmadi & Ismail, 2010) . Relying on the fractionated sequence, bioactive peptides are classified into the ingredients effective in human nervous, gastrointestinal, cardiovascular, and immune systems (Sánchez & Vázquez, 2017) . Bioactive peptides remain inactive as long as their relevant sequences are entrapped by long chains of proteins (Goudarzi et al., 2012) . The release of bioactive peptide sequences from the protein matrix is facilitated through the fermentation process, enzymatic hydrolysis, and gastrointestinal digestion of protein-containing foods. Most of the bioactive peptides and protein fractions are originated from milk and dairy products, meat, egg, fish, poultry, algae, nuts, and seeds (Mohanty et al., 2016) . The side effects of synthetic antiviral drugs together with high mutability of coronaviruses have encouraged scientists to use natural antivirals as a sustainable long-term strategy for remediation of coronavirus infections (Real et al., 2004) . In this regard, the antimicrobial protein fractions and bioactive compounds are developed as the body initial shield against various pathogens mainly through their immuneboosting functions. Impediment in virus reproduction capacity, interruption in the attachment of virus-cell membrane surface by blocking cell receptors, and direct destruction of virus integrity are pointed out as further antiviral mechanisms of bioactive peptides and bioactive protein fractions (da Mata et al., 2017) . The protein griffithsin, which is a lectin of 121 amino acids derived from the red algae Griffithsia, has shown potential to prevent and treat a wide range of viral infections (Decker et al., 2020) . Griffithsin is a homodimeric complex where each monomer harbors three carbohydrate-binding domains (Lee, 2019) . The ability of griffithsin to bind to oligo-saccharides makes it a promising candidate to block spike protein, the highly glycosylated surface protein of coronaviruses, Widely distributed on the mammalian cell membranes, HSPGs are thought as the initial docking site for a range of viruses invading human cells including HIV type 1, hepatitis B and C viruses, human papillomavirus, herpes virus, foot, and mouth disease virus, dengue virus, and most importantly SARS-COV (Lang et al., 2011) . In fact, before binding to ACE2 receptor and subsequent internalization into host cells, SARS-COV most probably attaches to HSPGs via spike protein, although with lower affinity compared with attachment to ACE2. It was deduced that the positively charged N-terminal glycosaminoglycan-binding domain of lactoferrin binds to negatively charged HSPGs via electrostatic attraction, which in turn interferes the virus initial attachment to host cells (Lang et al., 2011) . The findings of this study, along with the wellknown antiviral activities of lactoferrin, have recently inspired several researchers into exploring the possible inhibitory effect of lactoferrin on SARS-COV-2. In an in vitro study, de Carvalho et al. (2020) reported that bovine lactoferrin potently interfered with SARS-CoV-2 replication in a dose-dependent manner (0.2-1.0 mg/mL). In fact, based on RNA level, SARS-CoV-2 yields were reduced by approximately 84.6% and 68.6% in African green monkey kidney epithelial cells and in adenocarcinomic human alveolar basal epithelial cells, respectively, at 1 mg/mL lactoferrin concentration. Later, Hu et al. (2021) showed that both bovine lactoferrin and human lactoferrin inhibited SARS-COV-2 replication in multiple cell lines, implying the cell type independency of antiviral effect of lactoferrin and that they may provide protection against the coronavirus infection in different organs. It was also found that lactoferrin exerted its inhibitory effect on viral replication through blocking cell-surface HSPG receptors at the viral attachment stage, whereas no noticeable antiviral effect was observed when lactoferrin was included during viral entry or post-viral entry stages (Hu et al., 2021) . Note that the combined use of lactoferrin with the FDA-approved SARS-CoV-2 antiviral remdesivir showed synergistic antiviral activity in cell culture (Hu et al., 2021) . Similarly, Cegolon et al. (2021) reported higher in vitro virucidal activity of hypothiocyanite against SARS-CoV-2 when it was applied in combination with lactoferrin. The preventive and soothing effects of lactoferrin on SARS-COV-2 infection have also been demonstrated in clinical trials. Serrano et al. (2020) reported that the COVID-19 patients with typical symptoms who were orally administrated with a liposomal bovine lactoferrin nutritional syrup food supplement recovered completely in the first 4-5 days of the trial. Moreover, the same treatment but at lower doses prevented the infection of healthy individuals who were directly in contact with patients. A similar study found that oral and intranasal treatment of mild-to-moderate and asymptomatic COVID-19 patients with liposomal bovine lactoferrin significantly reduced the mean time length of rRT-PCR SARS-COV-2 RNA-negative conversion in comparison with the standard-of-care (SOC)-treated and nontreated patients (Campione et al., 2020) . Lactoferrin supplementation also caused significant decreases of inflammatory biomarkers, namely, ferritin, IL-6, and D-dimer, which in turn resulted in faster clinical symptoms recovery of the patients (Campione et al., 2020) . The downregulating impact of lactoferrin on inflammatory blood parameters of SARS-COV-2infected individuals was also reported by Serrano et al. (2020) . The anti-inflammatory of lactoferrin is believed to be due to its capability to chelate iron and thus restore iron homeostasis, which is disturbed by viral infection (Campione et al., 2020) . There is a dearth of experimental data on the potential of food protein-derived bioactive peptides for preventing or treating the epidemic infections caused by coronaviruses MERS-CoV, SARS-COV, and SARS-COV-2. However, food proteins are thought as potential sources for mining cathepsin L-inhibitory peptides to combat such diseases (Madadlou, 2020) . Cathepsin L is a host cell protease that plays a critical role in endocytosis of SARS-COV and SARS-COV-2 by cleaving their protein S . Therefore, inhibition of cathepsin L protease could be a promising strategy to block or substantially reduce the entry of the viruses into the host cells. The peptides with cathepsin L-inhibitory activity have already been identified in rice (Hellinger & Gruber, 2019) and pineapple stem (Polya, 2003) . Furthermore, milk proteins and in particular lactoferrin, which itself has shown cathepsin L-inhibitory activity (Sano et al., 2005) , hold great promise for generating such antiviral peptides (Madadlou, 2020) . Bioactive peptides of food origins might also have implications on endocytosis and pulmonary function of SARS-CoV-2 in affected patients through influencing the renin-angiotensin system (Madadlou, 2020) . The presumed mechanisms of action of such peptides have been outlined elsewhere (Goudarzi et al., 2020) . Notwithstanding, whether food-derived bioactive peptides can prevent and/or treat coronavirus infections remains to be explored. Ethereal or volatile oils are aromatic compounds (> 17,000) produced as secondary metabolites in many parts (fruits, buds, flowers, leaves, stems, twigs, bark, roots, seeds, and wood) of numerous higher plants, namely, angiospermic families Lamiaceae, Asteraceae, Zingiberaceae, Myrtaceae, and Rutaceae, called by the term "essential oils" (EOs; Burt, 2004; Regnault-Roger et al., 2012) . Usually, antimicrobial effects of EOs are affected by both concentrations of EO and their molecular structure (El Hadi et al., 2013) . In fact, EOs consist of more than 100 bioactive components, including hydrocarbons such as terpenes and sesquiterpenes, and oxygenated compounds like phenols, among which two or three components have usually a major share of EO constituents varied from 20% to 70%, determining their biological activities and characteristics (Islam et al., 2016; Pandit et al., 2016) . Although some components of EOs (mostly terpenes, phenolics, and aldehydes) are considered as key agents against viruses, molds, microbial toxins synthesis, bacteria, and insects (Shahidi & Hossain, 2018; Swamy et al., 2016) , it is believed that the biological activities of EOs are frequently attributed to a combined effect of their constituents (Bekut et al., 2018; Tariq et al., 2019) . As an example, Schnitzler et al. (2008) claimed that the application of original EOs was biologically better than individual components, as different compounds present in lemon balm EO influenced different phases in the life cycle of type 1 and 2 herpes simplex viruses (HSV-1 and HSV-2) via different mechanisms. On the other hand, Astani et al. (2010) reported that the single monoterpenes and EOs from eucalyptus, thyme, and tea tree were able to inhibit HSV-1 in vitro by more than 80% and 96%, respectively, indicating both significance of individual components and the synergistic effect of EO components as antiviral agents. Ex vivo, in vivo, and in vitro studies suggested that antiviral activity of EOs can be indirect, through promoting the immunity of human or synergistic effects on conventional drugs, or maybe a direct effect at which EO components target the outer structures of viruses (primarily viral envelop), disabling the attachment ability of virus when it is close to the target cell (Astani et al., 2011; Bekut et al., 2018; Gilling et al., 2014) . Moreover, based on time-of-addition studies dealing with antiviral activities of EOs extracted from ginger, hyssop, anise, thyme, sandalwood, chamomile (Koch et al., 2008) , Santolina insularis (De Logu et al., 2000) , and data presented in Table 4 , it is claimed that the activity of the EOs is mostly noticeable when cells or viruses are treated before the challenge. Some studies investigating the antiviral activity of various plantderived EOs, especially against coronaviruses, have been listed in (Li et al., 2005) . Loizzo et al. (2008) tried to inhibit SARS-associated coronavirus (SARS-CoV) by EOs from Laurus nobilis leaves. Despite a strong antiviral activity with IC 50 value of 120 μg/mL, they suggested ignoring the EOs for therapeutic application due to its relatively low selectivity index (SI, 4.6), as it is generally accepted that a drug with SI value more than 10 has a good safety profile (Tamargo et al., 2015) . Probiotics are naturally occurring alive microorganisms possessing innumerable health-supporting attributes, acting as immunemodulators, allergen alleviators, mental health promoters, gastrointestinal regulators, antihypertensive factors, and antimicrobials (Moghaddam et al., 2018; Sarlak et al., 2017) . The superhealthy natural food products containing probiotic lactic acid bacteria (LAB) strains consist of fermented dairy products (e.g., yogurt, kefir, and cheeses), Tempe, Natto, Kombucha, Kimichi, Miso, etc. It has been stated that the market of probiotic-enriched food products and supplements is progressively growing in the era of a pandemic due to their potential immune-boosting features. As proven in clinical studies, probiotics can exert antiviral activities either due to the formation of virusprobiotic interconnections or reinforcement of body immune system through stimulating specific immune-signaling responses to physiological feedbacks (Lehtoranta et al., 2014) . However, their meticulous mode of action at odds with the current SARS-CoV-2 virus is still ambiguous. In the past few years, numerous in vivo and in vitro attempts The results indicated that the oral administration of probiotic bacteria (dosage: 1 × 10 10 CFU/day), 2 weeks earlier than and 2 weeks after vaccination, intensified the virus-nullifying antibodies, and immune Th1 response, consequent to the improvement of vaccine efficiency compared with methylcellulose administration as placebo. In addition, the protective role of Lb. reuteri against upper respiratory tract symptoms and gastrointestinal disorders, and a decrease in diarrhea occurrence, has been proven through the in vivo trials on cases aged younger than six years (Agustina et al., 2012; Gutierrez-Castrellon et al., 2014; Weizman et al., 2005) . Coadministration of probiotics strains and prebiotics (probiotic nourishments) has been demonstrated to be an effectual strategy in improving the immunogenicity of the influenza vaccine by affecting seroprotection and seroconversion amounts, more specifically in robust adults (Lei et al., 2017) . The increase in the effectiveness of vaccines and body immunologic responses have been promoted by conjunct loading of probiotic bacteria and vitamin D supplements in functional foods (Aranow, 2011) . Taken as a whole, proper administration of probiotics via food and food supplements, in addition to all beneficial health-promoting aspects, resulted in a safe and highly credited strategy to modulate the immune system and increase the vaccine effectiveness against various coronaviruses. However, further clinical and mechanistic studies should be addressed to understand their exact antiviral mechanisms in the treatment of coronavirus-mediated respiratory disorders, in particular those infected by SARS-CoV-2. The COVID-19 pandemic has turned the public health upside down, with significant mortality and morbidity. No effective specific therapies are available to date. In addition, the mutagenic nature of coronaviruses has forced researchers to intend alternative approaches to treat coronavirus infections. Therapies with bioactives can be mainly divided into four groups: bioactive compounds inhibiting the virus enzymes, replication, and infection; bioactive compounds decreasing the ACE2 receptor activity; bioactive compounds suppressing the host inflammatory responses; and bioactive compounds boosting the human immune system against COVID-19. Our review shows that several polyphenols, carotenoids, minerals, vitamins, oligosaccharides, bioactive peptides, and probiotics may inhibit COVID-19 enzymes (3CL pro , PL pro , and RdRp), ACE2 receptor activity, and attenuated inflammatory responses. Moreover, these compounds can improve the immune system and, consequently, contribute to combat COVID-19. In addition to the potent healing effect of these compounds, their low toxicity and low cost make them good antiviral candidates for use during such a pandemic. A strong immune system also plays a key role against coronavirus. Diets rich in bioactive compounds, fiber, vitamins, minerals, protein, minerals, oils, probiotics, etc., help fight virus infection and improve the immune system. However, the effects of these bioactive compounds against COVID-19 are yet to be investigated further and confirmed in clinical trials and mechanistic studies. The authors confirm that they have no conflict of interest to declare for this publication. 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Evidence from in vitro and in vivo studies on antioxidant properties The role of zinc in antiviral immunity Antiviral drug discovery strategy using combinatorial libraries of structurally constrained peptides Essential oils in insect control: Low-risk products in a high-stakes world Pectin polymers as wall materials for the nano-encapsulation of bioactive compounds Drug nanodelivery systems based on natural polysaccharides against different diseases Carotenoid-loaded nanocarriers: A comprehensive review Structural characterization and antiviral activity of lentinan from Lentinus edodes mycelia against infectious hematopoietic necrosis virus A randomized controlled trial of zinc supplementation in the treatment of acute respiratory tract infection in Thai children The epidemiology and pathogenesis of coronavirus disease (COVID-19) outbreak Lianhuaqingwen exerts anti-viral and anti-inflammatory activity against novel coronavirus (SARS-CoV-2) Antimicrobial activity of phenolics and glucosinolate hydrolysis products and their synergy with streptomycin against pathogenic bacteria Lycopene enrichment of cultured airway epithelial cells decreases the inflammation induced by rhinovirus infection and lipopolysaccharide Antimicrobial activity of the glucosinolates Glucosinolates Protective effects of lactoferrin against SARS-CoV-2 infection in vitro Cysteine protease inhibitors in various milk preparations and its importance as a food Probiotic biological strategies to decontaminate aflatoxin M1 in a traditional Iranian fermented milk drink (Doogh) Antioxidative peptides from food proteins: A review Antioxidant dietary fiber product: A new concept and a potential food ingredient Dietary fiber and associated antioxidants in fruit and vegetables. Fruit and Vegetable Phytochemicals Dietary intake and bioavailability of polyphenols Melissa officinalis oil affects infectivity of enveloped herpesviruses Putative probiotic Lactobacillus spp. from porcine gastrointestinal tract inhibit transmissible gastroenteritis coronavirus and enteric bacterial pathogens Liposomal lactoferrin as potential preventative and cure for COVID-19 Dietary lycopene, tomato-based food products and cardiovascular disease in women Molecular docking study of novel COVID-19 protease with low risk terpenoides compounds of plants Fortification of staple foods with zinc for improving zinc status and other health outcomes in the general population Bioactives in spices, and spice oleoresins: Phytochemicals and their beneficial effects in food preservation and health promotion The antiviral, antiinflammatory effects of natural medicinal herbs and mushrooms and SARS-CoV-2 infection Be well: A potential role for vitamin B in COVID-19 COVID-19 infection: Origin, transmission, and characteristics of human coronaviruses The role of folic acid in the management of respiratory disease caused by COVID-19 Dietary selenium supplementation enhances antiviral immunity in chickens challenged with low pathogenic avian influenza virus subtype H9N2 A review of coronavirus disease-2019 (COVID-19) Protective effects of cell-free supernatant and live lactic acid bacteria isolated from Thai pigs against a pandemic strain of porcine epidemic diarrhea virus Inhibitory activities of marine sulfated polysaccharides against SARS-CoV-2 In vitro antimicrobial, antioxidant and antiviral activities of the essential oil and various extracts of wild (Daucus virgatus (Poir.) 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International Archives of Zn2+ inhibits Coronavirus and arterivirus RNA polymerase activity in vitro and zinc ionophores block the replication of these viruses in cell culture Epidemiological studies on brassica vegetables and cancer risk In search of feasible interventions for the prevention and cure of novel coronavirus disease Human milk oligosaccharides: Shaping the infant gut microbiota and supporting health Zinc: Roles in pancreatic physiology and disease Oral Delivery of Probiotics Expressing Dendritic Cell-Targeting Peptide Fused with Porcine Epidemic Diarrhea Virus COE Antigen: A Promising Vaccine Strategy against PEDV Inhibition of Influenza A Virus Infection by Fucoidan Targeting Viral Neuraminidase and Cellular EGFR Pathway Copper deficiency, a new triad: Anemia, leucopenia, and myeloneuropathy Effect of a probiotic infant formula on infections in child care centers: Comparison of two probiotic agents Epithelia-Damaging Virus Infections Affect Vitamin A Status in Chickens Specific Plant Terpenoids and Lignoids Possess Potent Antiviral Activities against Severe Acute Respiratory Syndrome Coronavirus Micronutrients in autoimmune diseases: Possible therapeutic benefits of zinc and vitamin D Zinc as a gatekeeper of immune function Antioxidant diets and functional foods promote healthy aging and longevity through diverse mechanisms of action: The role of functional food security in global health Colonic metabolites of berry polyphenols: The missing link to biological activity? Anti-HBV activity and mechanism of marine-derived polyguluronate sulfate (PGS) in vitro Biotransformation of glucosinolates epiprogoitrin and progoitrin to (R)-and (S)-goitrin in Radix isatidis Different types of effective fractions from Radix Isatidis revealed a multiple-target synergy effect against respiratory syncytial virus through RIG-I and MDA5 signaling pathways, a pilot study to testify the theory of superposition of traditional Chinese Medicine efficacy Serum and liver micronutrient antioxidants and serum oxidative stress in patients with chronic hepatitis C The role of zinc in the treatment of taste disorders. Recent Patents on Food Laboratory testing of SARS-CoV, MERS-CoV, and SARS-CoV-2 (2019-nCoV): Current status, challenges, and countermeasures Analysis of adaptive immune cell populations and phenotypes in the patients infected by SARS-CoV-2 Traditional Chinese medicine in the treatment of patients infected with 2019-new coronavirus (SARS-CoV-2): A review and perspective In vitro and in vivo effects of Houttuynia cordata on infectious bronchitis virus Potential interventions for novel coronavirus in China: A systematic review Impact of food emulsions on the bioaccessibility of hydrophobic pesticide residues in co-ingested natural products: Influence of emulsifier and dietary fiber type The in vitro antivirus effects and dose-effect relationship of epigoitrin and fructopyrano-(1 → 4)-glucopyranose based on "deletion/increment" strategy Advances in lentinan: Isolation, structure, chain conformation and bioactivities Vitamin D Alleviates Rotavirus Infection through a Microrna-155-5p Mediated Regulation of the TBK1/IRF3 Signaling Pathway In Vivo and In Vitro Preliminary estimation of the basic reproduction number of novel coronavirus (2019-nCoV) in China, from 2019 to 2020: A data-driven analysis in the early phase of the outbreak Preventive effects of vitamin D on seasonal influenza A in infants: A multicenter, randomized, open, controlled clinical trial Antioxidant activity of high purity blueberry anthocyanins and the effects on human intestinal microbiota Studies on chemical constituents in root of Isatis indigotica. Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi Alterations in gut microbiota of patients with COVID-19 during time of hospitalization The direct and indirect effects of bioactive compounds against coronavirus. Food Frontiers