key: cord-0769472-l4l9pz3e authors: Kesheh, Mina Mobini; Shavandi, Sara; Haeri Moghaddam, Niloofar; Ramezani, Moazzameh; Ramezani, Fatemeh title: Effect of herbal compounds on coronavirus; a systematic review and meta-analysis date: 2022-05-21 journal: Virol J DOI: 10.1186/s12985-022-01808-z sha: 60fe555865a2d84045101d6c49d436c500b3bbc2 doc_id: 769472 cord_uid: l4l9pz3e BACKGROUND: The new coronavirus (COVID-19) has been transmitted exponentially. Numerous studies have been performed in recent years that have shown the inhibitory effect of plant extracts or plant-derived compounds on the coronavirus family. In this study, we want to use systematic review and meta-analysis to answer the question, which herbal compound has been more effective? MAIN BODY: The present study is based on the guidelines for conducting meta-analyzes. An extensive search was conducted in the electronic database, and based on the inclusion and exclusion criteria, articles were selected and data screening was done. Quality control of articles was performed. Data analysis was carried out in STATA software. CONCLUSION: Due to the variety of study methods, definitive conclusions are not possible. However, in this study, we attempted to gather all the available evidence on the effect of plant compounds on SARS-COV-2 to be used for the development and use of promising antiviral agents against this virus and other coronaviruses. Trypthantrin, Sambucus extract, S. cusia extract, Boceprevir and Indigole B, dioica agglutinin urtica had a good effect on reducing the virus titer. Also among the compounds that had the greatest effect on virus inhibition, Saikosaponins B2, SaikosaponinsD, SaikosaponinsA and Phillyrin, had an acceptable selectivity index greater than 10. Andrographolide showed the highest selectivity index on SARS-COV-2. Our study confirmed insufficient data to support alkaloid compounds against SARS-COV-2, and the small number of studies that used alkaloid compounds was a limitation. It is recommended to investigate the effect of more alkaloid compounds against Corona virus. The outbreak of the new coronavirus (COVID- 19) originated in Wuhan, China in December 2019 and has affected many countries around the world. As of March 26, the World Health Organization (WHO) has announced in detail that the disease has spread to 197 countries. Most people infected with the COVID-19 virus experience mild to moderate respiratory illness and recover without special treatment [15, 58] . The elderly and those with underlying medical problems such as cardiovascular disease, diabetes, chronic respiratory disease, and cancer develop serious illness [5, 17] . For providing the best immunization to the community against this virus, alongside developed vaccines, different drugs are still needed for coronavirus inhibition [49] . Remdesivir (Veklury) is currently the only FDA approved drug to treat coronavirus disease. This confirmation was based on findings that hospitalized patients who received Remdesivir recovered faster. Many clinical trials are currently underway to evaluate other potential therapies, such as monoclonal antibodies to COVID-19. Researchers are also testing older drugs (commonly used to treat other diseases) to see if they work for COVID-19. *Correspondence: framezani2014@gmail.com; Ramezani.f@iums.ac.ir Plants have beneficial biomedical effects due to their natural properties [33, 42] . Plants are inexpensive and available sources of medicinal compounds that by changing the growth conditions and the effect of various stimulants, the production of medicinal molecules and their effect can be increased several times [3, 12, 41, 43] . The antiviral effects of many plants have been proven. Of course, plants that have previously had an inhibitory effect on the coronavirus family or inhibited the ACE2 enzyme may help inhibit new coronavirus or symptomatic therapy [39] . Traditional herbal medicines have been used since the early days of COVID-19 in China. These traditional drugs have been shown to improve 90% of the 214 patients [14] . Some traditional herbal therapies stopped SARS-COV-2 infection in healthy people and improved the health status of patients with mild or severe symptoms [14, 54] . Traditional Chinese medicine known as Shu Feng Jie Du and Lianhuaqingwen, which have been effective against previous influenza A (H1N1) or SARS-CoV-1 [30] , have been recommended. The use of traditional medicines in COVID-19 treatment and prevention guidelines was prepared by a team from Wuhan University's Zhongnan Hospital. Several methods using herbs have been suggested to prevent COVID-19. In addition, for the treatment of the disease, experts recommended the use of different herbal mixtures according to the stage of the disease [19] . Evidence suggests that herbal remedies may be effective in decreasing and managing of COVID-19 risk [13] . Despite many primary study researches, there is no a systematic review article that compare the effects of all studied compounds on the SARS-COV-2 by more details and it can be useful for researchers in this field. In this study, we conducted a systematic review and meta-analysis on herbal compounds against coronavirus family, which may have the potential in treating COVID19 infection. The purpose of this study is to better understand current compounds in research into the development of new antiviral agents against SARS-COV-2 from plant sources. The findings of this study can help to provide up-to-date knowledge about the antiviral potential against SARS-COV-2 in medicinal plants and to utilize existing knowledge gaps to improve future research by identifying areas for greater focus. The present study is designed based on the PRISMA guidelines for systematic review. The present study investigated the inhibitory effect of plant compounds on the coronaviruses family. An extensive search of the Medline electronic database, ISI Web of Science, EMBASE, and Scopus was conducted through April 2021. The search strategy was based on the Table 1 . Keywords have been selected as widely as possible so that a study is not omitted. To find additional articles or unpublished data, hand-search was performed in the list of relevant articles and related journals. Controlled in-vitro and in-vivo studies were selected to investigate the inhibitory effect of plant compounds against each of the coronaviruses. Controlled studies are studies that, in addition to a group treated with a plant composition, also have a control group without treatment. No time or language restrictions were imposed. Because most viral studies are performed in an in-vitro model, the target population for this study is SARS-COV-2 virus-infected cells.In the present study, short articles and letters to the editor were not examined. Review articles were not included in the study. In the present study, the Selectivity Index (SI) (the CC50/ EC50 ratio) was extracted from articles. CC50 is the concentration of compound required to reduce host cell viability by 50% and EC50 is the concentration of compound required to reduce virus function by 50%. In addition, studies that have examined each of the factors of inhibition of virus and virus titer are included in the meta-analysis. The extracted articles were evaluated independently by two researchers and the data were recorded in the data extraction form. In case of disagreement between two researchers, the third person studied the findings and resolved the existing disagreement by discussing and exchanging views with the other two researchers. Data collection was done without prejudice and restrictions on the author, journal, organization or organ. The results of a systematic search in this study were recorded in a checklist designed based on PRISMA statement guidelines. The extracted data included general information of the article (author name, year of publication), information related to the design of the study, characteristics of the studied host such as cell type, as well as characteristics of the studied plant such as plant name and strain. When the consequences and values to be evaluated are reported in several stages, the last evaluation time was entered into the research. If the results were presented in the form of graphs, the data extraction method was used. The evaluation of the quality of the studies included in this study has been done according to the methods described in published articles [18, 28] . Eight groups of criteria include 20 items were examined (exclusions, randomization, blinding, sample size, figures and statistical representation of data, definition of statistical methods and measures, implementation of statistical methods and measures, reagents and cells). These criteria were extracted from the articles by the twenty separate cases mentioned below: (1) Samples that were excluded from the analysis. (2) Which method of randomization was used to determine how samples were allocated to experimental groups? (3) Whether the investigator was blinded to the group allocation during the experiment and/or when assessing the outcome, (4) How the sample size was chosen to ensure adequate power to detect a pre-specified effect size. (5) Exact sample size (n) for each experimental group/condition was given as a number, not a range. (6) Whether the samples represented technical or biological replicates. (7) A statement of how many times the experiment was replicated. (8) Results were defined as a median or average. (9) Error bars were defined as SD., SEM. or CI. (10) Common statistical tests (such as t-test, simple χ2 tests, Wilcoxon and Mann-Whitney tests, or any form of ANOVA testing). If not a common test, is the test is described in the methods section. (11) If the statistical test used was a t or z test, was it reported as one sided or two sided. (12) Adjustments for multiple comparisons were applied where appropriate. (13) The statistical test results (e.g., P values, F statistic etc.) were presented. (14) The authors show that their data met the assumptions of the tests. (15) An estimate of variation is reported for each group of data. (16) The variance between the groups that were statistically compared was comparable (difference less than two-fold). (17) Every antibody used in the manuscript been characterized by either citation, catalog number, clone number or validation profile, (18) The source of all cell lines was provided. (19) The authors reported whether the cell lines used have been recently authenticated. (20) The authors reported whether the cell lines have recently been tested for contamination (within 6 months of use). All analyzes were performed using Stata 14. Data were obtained from the mean of different ratios between experimental and control groups. The random effect model was used. Subgroup analysis was performed for the chemical structure of the plant composition used, viral subtype and cell line type studied. P values were reported by testing the statistical hypothesis at the level of 0.05 bilaterally. To reach the studies that met our inclusion criteria (see Fig. 1 ), we searched the articles and identified 3,589 studies that appeared to be relevant. 1268 studies were duplicates and were omitted. Of the remaining 2328 studies, 47 articles remained after reviewing titles and abstracts. After reviewing the texts of the articles, 15 articles were deleted and 32 articles remained in the study. Table 2 shows the characteristics of the articles included in this study. 15 articles were on SARS-COV, 9 articles were on SARS-COV-2, 6 articles were on HCOV, 3 articles were on IBV, 2 articles were on PEDV and 2 articles were on MERS-COV-2. SI were extracted from 23 studies and EC50 obtained from 16 articles. In 10 articles virus inhibition and in 8 articles virus titer measurements were reported. Other characteristics of the articles such as host cell type, strain and plant genus, drug composition are listed in Table 2 . In herbal medicine research, it is common to observe multiple medicinal properties of a plant. It is now well understood that a plant may contain a wide range of chemicals, and have different effects on the virus and the host cell [27] . In this study, SI was one of the indicators extracted from the articles. Awouafack et al. Recommended a SI ≤ 10 acceptance criterion for selecting an active sample [4] . In this study in addition to inhibiting the virus, and reducing the virus titer, the amount of SI was extracted from articles ( Table 2) . As shown in Table 2 , among all plant compounds, Silvesterol has an SI > 7690 on MERS-COV-2 virus in the host of infected human embryonic lung fibroblast (MRC-5) cell, which has the highest SI. In rank 2, the SI of Saikosaponins B2 was 221 on the HCOV strain. Of the plant compounds against the SARS-COV strain, Andrographolide had the highest SI. The same compound had the highest SI on SARS-COV-2 ( Fig. 2 ). Then in order honokiol, 7a-hydroxydeoxycryptojaponol, Lycoris radiata, Extract/Amaryllidaceae and Lectin Among the compounds acting on the PEDV strain, Oleanane triterpenes6 showed the highest SI = 44.54, followed by Oleanane triterpenes9. Among the compounds acting on IBV, the ethanolic extract of Lamiaceae showed the highest SI (Fig. 2) . The EC50 (Table 2) , was reported in articles with two units of µg/ml and µM/L, and therefore we divide the articles into two groups according to the reported unit in our studies. In studies that investigated the EC50 of plant composition on SARS-COV and reported the result as µg/ml Lectin (Man-specific agglutinins) (EC50 = 0.45 ± 0.08 (µg/ml), Griffithsin (EC50 = 0.61 µg/ml), Mannose-specific agglutinins (EC50 = 1.6 ± 0.5 (µg/ml) and GlcNAc-specificictc Nictaba agglutinins (EC50 = 1.7 ± 0.3 (µg/ml), (Glc-NAc) n-specific agglutinins UDA (EC50 = 1.3 ± 0.1 (µg/ml), extract of Amaryllidaceae (EC50 = 2.4 (± 0.2) (µg/ml) and extract of Lycoris radiate (EC50 = 2.1 (± 0.2) (µg/ml) have the lowest EC50. Among the compounds that reported EC50 in µM/L units were 7â-hydroxydeoxycryptojaponol (EC50 = 1.15 µM/L), 8α-hydroxyabieta, 9 (11), 13-dien-12-one (EC50 = 1.47), 3α -12Diacetoxyabieta-6,8,11,13-tetraen (EC50 = 1.57) and Savinin (EC50 = 1.13) showed the lowest EC50. Silvestrol (EC50 HCOV = 0.003 µM/L, EC50 MERS-COV-2 = 0.0013 µM/L) showed the lowest EC50 among the compounds that affected H-COV and MERS-COV-2. Among the compounds acting on the PEDV strain, Oleanane triterpenes8 (EC50 = 0.06 ± 0.02 (µM/L) showed the lowest EC50 (Table 2) . Quality control of 36 articles was reviewed using 20 items (Table 3 ). Study design features that help reduce bias, such as randomization, blindness of the test taker, reason for removing samples, how to select sample size, adjustments for multiple comparisons, similarity of variance between groups, cell authentication and cell contamination, cell strain confirmation, estimate of variation is reported within each group of data, and similarity of variance between the compared groups have not been reported in the literature. Only 52% of the articles reported the item "t or z test reported as one sided or two sided". All articles have reported the following: the exact sample size, whether the samples represent technical or biological replicates, how many times the experiment shown was replicated, the summary estimates are defined as a median or average, the error bars are defined as s.d., s.e.m. or c.i., Common statistical test, or the test is described, the statistical test results are presented, the authors show that their data meet the assumptions of the tests and the source of cell lines. The effect of herbal compound on the virus inhibition showed (Fig. 3) that Saikosaponins B2 (SMD = 293.4; 95% CI 90.08-496.72), Saikosaponins D, Caffeic acid, and S. cusia extract inhibit virus growth more than other compounds. Subgroup studies was performed to find the source of heterogeneity among studies (I 2 = 75.9, p < 0.0001). All three factors, including chemical structure, virus strain, and host cell type, are heterogeneous agents. We subgrouped the data based on chemical structure into groups of phenolic compounds (9 experiment), alkaloids (2 experiment) and plant extracts (6 experiment) ( In data grouping by cell type, the effect of plant compounds on cells of human origin (ES = 109.98; 95% CI Table 3 Articles score based on Agency for Healthcare Research and Quality's Methods Guide for Effectiveness of Reviews 1) samples were excluded from the analysis, 2) which method of randomization was used to determine how samples were allocated to experimental groups, 3) whether the investigator was blinded, 4) how the sample size was chosen 5)The exact sample size (6) whether the samples represent technical or biological replicates, 7) how many times the experiment shown was replicated, 8)The summary estimates are defined as a median or average, 9) The error bars are defined as sd., sem. or ci., 10) Common statistical test, or the test is described, 11) t or z test reported as one sided or two sided, 12) Adjustments for multiple comparisons are applied, 13) The statistical test results are presented, 14) The authors show that their data meet the assumptions of the tests, 15)An estimate of variation is reported within each group of data, 16) The variance is similar between the groups that are being statistically compared, 17) antibody citation, catalog number, 18) The source of cell lines, 19) whether the cell lines used have been authenticated recently, 20) whether the lines used have been tested for contamination recently Author/ Year 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Christin Müller/ 2017 N N N N Y Y Y Y Y N N N Y Y N N N Y N N Pei-Win Cheng/ 2006 N N N N Y Y Y Y Y Y Y N Y Y N N NA Y N N Chung-Jen Chena/2008 N N N N Y Y Y Y Y N N N Y Y N N NA Y N N Shi-you Li/ 2005 N N N N Y Y Y Y Y N N N Y Y N N NA Y N N Jing-Ru Weng/2019 N N N N Y Y Y Y Y Y N N Y Y N N NA Y N N Els Keyaerts/ 2007 N N N N Y Y Y Y Y N N N Y Y N N NA Y N N Hye-Young Kim/ 2008 N N N N Y Y Y Y Y N N N Y Y N N N Y N N Hye-Young Kim/ 2010 N N N N Y Y Y Y Y Y N N Y Y N N NA Y N N Yohichi Kumaki/ 2011 N N N N Y Y Y Y Y Y Y N Y Y N N NA Y N N Raimundas Lelešius/ 2019 N N N N Y Y Y Y Y Y Y N Y Y N N NA Y N N K.H. Chiow/ 2015 N N N N Y Y Y Y Y N N N Y Y N N NA Y N N Jianguo Liang/2013 N N N N Y Y Y Y Y N N N Y Y N N NA Y N N Martin Michaelis/ 2011 N N N N N Y Y Y Y N N N Y Y N N NA Y N N Chih-Chun Wen/ 2007 N N N N Y Y Y Y Y N N N Y Y N N NA Y N N Chih-Chun Wen/ 2011 N N N N Y Y Y Y Y N N N Y Y N Y NA Y N N Jun-Li Yang/2015 N N N N Y Y Y Y Y Y Y N Y Y N N NA Y N N Jun-Li Yang/ 2015 N N N N Y Y Y Y Y Y Y N Y Y N N N Y N N Jiechao Yin/2011 N N N N Y Y Y Y Y Y Y N Y Y N N NA Y N N Christie Chen/ 2014 N N N N Y Y Y Y Y N N N Y Y N N NA Y N N Aarthi Sundararajan/2010 N N N N Y Y Y Y Y Y Y N Y Y N N NA Y N N Jean K. Millet/ 2016 N N N N Y Y Y Y Y Y Y N Y Y N N N Y N N Min Zhuang/ 2009 N N N N Y Y Y Y Y N N N Y Y N N N Y N N Nair/2020 N N N N Y Y Y Y Y Y N N Y Y N N NA Y N N Tsai/ 2020 N N N N Y Y Y Y Y Y Y N Y Y N N NA Y N N Ruiyuan Cao/ 2020 N N N N Y Y Y Y Y Y Y N Y Y N N N Y N N Sa-ngiamsuntorn/ / 2020 N N N N Y Y Y Y Y N N N Y Y N N N Y N N Bram M. ter Ellen/2021 N N N N Y Y Y Y Y Y Y N Y Y Y N NA Y N N Ka-Tim Choy/2020 N N N N Y Y Y Y Y N N N Y Y N N NA Y N N Qinhai Ma/2020 N N N N Y Y Y Y Y Y Y N Y Y N N N Y N N Qinhai Ma/2020 N N N N Y Y Y Y Y Y Y N Y Y N N NA Y N N Barry R. O'Keefe/ 2009 N N N Y Y Y Y Y Y Y Y Y Y Y N N NA Y N N Quanjie LI/2020 N N N N Y Y Y Y Y N N N Y Y N N NA Y N N Wael H. Roshdy/ 2020 N N N N Y Y Y Y Y Y Y N Y Y N N NA Y N N J Cinatl/2003 N N N Y Y Y Y Y Y N N N Y Y N N NA Y N N Dong Eon Kim/2019 N N N N Y Y Y Y Y Y Y Y Y Y N N NA Y N N Monica R. Loizzo/ 2008 N N N N Y Y Y Y Y N N N Y Y N N NA Y N Virus titer analysis after treatment with herbal medicine in 10 articles and 20 studies showed (Fig. 4) that Trypthantrin (SMD = − 43.40; 95% CI − 73.52 According to the SI index, Silvestrol had the greatest effect on the coronavirus family. Among the compounds whose effects on SARS-COV-2 were investigated, Andrographolide (Fig. 5A ) had the highest effect. Andrographolide is a diterpene lactone in the isoprenoid family, which is recognized for its broad-spectrum antiviral activity [46] . In silico studies predicted Andrographolide has a potent anti-SARS-COV-2 activity through specific aiming of the host ACE2 receptor and viral factors, such as RNA-dependent RNA polymerase, main protease, 3-CL protease, PL protease, and spike protein [16, 21, 44] . Recently, Shi et al. demonstrated an inhibitory effect of Andrographolide against SARS-COV-2 main protease (Mpro) [47] . Based on the EC50 index, Lectin (Fig. 5B) , Griffithsin and 7a-hydroxydeoxycryptojaponol showed the lowest levels. Plant lectins have significant antiviral properties against coronaviruses and are non-toxic for host cells. The strongest anti-coronavirus activity was found predominantly among the mannose-binding lectins. The first target in the replication cycle of SARS-COV is located in probably viral attachment, and the second target is at the end of the infectious virus cycle [20] . Lectins are the sparkle of hope for fighting coronaviruses and the worldwide COVID 19 [1] . The results of meta-analysis of inhibiting the growth of the virus after treatment with herbal medicine showed that among the herbal compounds, the antiviral effect of the alkaloid compound Saikosaponin B2 (Fig. 5C) is the most. Saikosaponin B2 showed strong potent anti-coronaviral activity and its method of action probably involves interference in the early stage of viral replication, such as virus uptake and penetration [9] . The results of the virus titer also confirmed Tryptanthrin alkaloid compound (Fig. 5D ) as the strongest antiviral effect. Tryptanthrin prevented the both early and the late stages of coronaviral replication, principally by blocking viral RNA genome synthesis and Papain-like protease2 activity [48] . Studies by other researchers have shown that alkaloids, as one of the most widely used natural compounds, can be an effective treatment against SARS-COV-2 due to their simultaneous effects on several therapeutic targets with prominent antiviral effects [34] . Due to the multiplicity of study methods, definitive conclusions are not possible. However, in this study, we tried to gather all available evidence on the effect of plant compounds on SARS-COV-2 to be used for the development and use of promising antiviral agents against SARS-COV-2 and other coronaviruses. According to the SI results, Silvesterol had the greatest effect on the coronavirus family and Andrographolide had the greatest effect on SARS-COV-2. Based on the EC50, Lectin, Griffithsin and 7a-hydroxydeoxycryptojaponol showed the lowest levels. The results of meta-analysis confirmed the growth inhibition of Saikosaponin B2 and the virus titer results confirmed the alkaloid compound Tryptanthrin as the strongest antiviral molecule. The small number of studies that used alkaloid was one of the limitations of this study and it is suggested to investigate the effect of more alkaloid compounds on coronavirus. 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MM: Data screening. SSH: Data screening. NH: writing, Article screening. All authors read and approved the final manuscript. The authors declare no conflict of interest.