key: cord-0994088-qjsqq67g authors: X Hoang, Ba; Hoang, Huy Q title: Zinc Iodide in combination with Dimethyl Sulfoxide for treatment of SARS-CoV-2 and other viral infections date: 2020-05-23 journal: Med Hypotheses DOI: 10.1016/j.mehy.2020.109866 sha: 1f7608500b60a17d36d4dc2fd2feac871c83edbf doc_id: 994088 cord_uid: qjsqq67g Zinc Iodide and Dimethyl Sulfoxide composition is proposed as therapeutic agents to treat and prevent chronic and acute viral infections including SARS-CoV-2 infected patients. The therapeutic combinations have a wide range of virucidal effect on DNA and RNA containing viruses. The combination also exhibits anti-inflammatory, immunomodulating, antifibrotic, antibacterial, antifungal and antioxidative effects. Given the fact that Zinc Iodide has been used as an oral antiseptic agent and DMSO have already proven as a safe pharmaceutical solvent and therapeutic agent, we hypothesize that the combination of these two agents can be applied as an effective, safe and inexpensive treatment for SARS-CoV-2 and other viral infection. The therapeutic compound can be applied as both etiological and pathogenesis therapy and used as an effective and safe antiseptic (disinfectant) for human and animals as well. COVID-19 pandemic caused by SARS-CoV-2 virus a type of Coronavirus is posing a worldwide threat with its high infectivity and virulence. 1 Globally, the virus has already caused a costly number of hospitalizations and deaths resulting in many countries taking quarantine actions to limit the spread of infection. The WHO declared the disease the sixth public health emergency, and then declared the coronavirus outbreak a pandemic. 2 There is currently no cure for this disease, meaning there are no approved antiviral drugs or vaccine options available for treatment besides symptomatic therapy. Companies and researchers across the world are dedicating their time and effort into finding an effective therapy for COVID-19, but this may take far too long. Patients with severe cases are getting supportive care, managing life threatening symptoms of viral pneumonia and acute respiratory distress syndrome (ARDS). Even with medical professionals working day and night, the death toll has been steadily increasing, with more and more countries being infected. There is an urgent need for effective, safe, inexpensive and readily available therapeutic approach for SARS-CoV-2 and viral infection. Given the fact that Zinc Iodide has been used as an oral antiseptic agent and DMSO have already proven as a safe pharmaceutical solvent and therapeutic agent, we hypothesis that the combination of these two agents can be applied as an effective, safe and inexpensive treatment for SARS-CoV-2 and other viral infection. Positive-stranded RNA (+RNA) viruses are the single largest group of RNA viruses including many infectious pathogens. They have evolved a variety of replication strategies but share the same mechanism that an RNA-dependent RNA polymerase (RdRp), functions as the core enzyme of their RNA-synthesizing machinery. Given their crucial function in the viral replicative cycle, RdRps are key targets for antiviral research. al. 8 has shown that coronavirus replication can be inhibited by increased Zn 2+ levels by inhibiting SARS-CoV RdRp activity during the elongation phase of RNA synthesis, without demonstrating detectable cytotoxicity. The mechanism of action is hypothesized that the zinc ions directly affect template binding. However, in other studies, zinc ions seemed to locate into the mitochondria, and the mechanism of inhibition is unclear. 6 Other studies had noted an inhibitory effect of Zn 2+ on the activity of purified RdRps from rhinoviruses and hepatitis C virus, but not investigated in any detail. 9, 10 Zinc is an essential trace element for humans and serves as a cofactor in many transcription factors and enzymes that play critical roles in growth and development, metabolism, immune function, and wound healing. 11 This micronutrient is found throughout the body, in the cells, and is needed as the central ion for over >300 enzymes to work. 12 Additionally, it plays a huge part in normal immune function. This micronutrient is crucial for maintaining homeostasis of both innate and adaptive immune systems and its deficiency is correlated with compromised immune cell development and functions. 13 One of the major clinical symptoms in zinc deficient patients is depressed immunity, which leads to adverse clinical outcomes including increased infections and frequency of disease. 13 Studies have shown that zinc plays important roles in regulating the activity of immune mediators including cytokine and chemokine activities, contributing to membrane stabilization, and regulating lymphocyte apoptosis. 13 Clinically, the use of zinc has been proven effective against infectious diseases in the human population. After supplementing zinc in the elderly population, there was a significant decrease of infections in 12 months compared to the placebo group. 14 Randomized double blinded placebo-controlled trials have shown that daily zinc supplementation can reduce the incidence and duration of chronic diarrhea by 25-30% 15 , reduce rates of acute respiratory infection up to 45% 16 , and can even decrease the duration of the common cold. 17 Clinical trials have demonstrated decreased oxidative stress biomarkers and decreased inflammatory cytokines in the elderly with zinc supplementation. 14 In the experimental model of zinc deficiency, the investigators showed that zinc deficiency per se increased the generation of IL-1β and its mRNA in human mononuclear cells following LPS stimulation. Zinc supplementation also upregulates A20, a zinc containing transcriptional factor, which inhibits the activation of NF-κB 18 which is the prototypical proinflammatory signaling pathway in cellular responses. 19 Downregulating this pathway leads to a decreased generation of inflammatory cytokines. Controlling oxidative stress and chronic inflammation is important because they are contributing factors for several chronic diseases attributed to aging, such as atherosclerosis and related cardiac disorders, cancer, neurodegeneration, immunologic disorders and the aging process itself. 20 Iodine is an extremely effective broad-spectrum antiseptic with low toxicity. 21 Iodine has very high germicidal activity targeting bacterial exotoxins and enzymes, 22 making developing resistance difficult. 23 Fischer et al. 24 demonstrated that after a single dose of oral potassium iodide to a human subject increased serum Iconcentrations and resulted in the increase of Iin the upper airway secretion. The increased concentration of iodide demonstrates robust activity against two major respiratory viral pathogens, adenovirus, and RSV. This study suggests that iodide compound contributing to airway antiviral defense is through the activation of the lactoperoxidase/I 2 / H 2 O 2 system. The delivery of Ito airway mucosa may augment innate antiviral immunity. Iodine is one of the essential nutrients. There have been many historical reports of immune deficiencies among populations of iodine-deficient people. 25 A lack of iodine is widespread in modern dietary and lifestyle, with high dietary perchlorate, glucosinolate, thiocyanate, calcium nitrate, cobalt and rubidium interfere with iodine metabolism and may increase iodine requirements. 26 Household hygiene products such as chlorine containing beach and fluoride in water and toothpaste further depletes iodine in our body. 27 Leukocyte myeloperoxidase enzyme uses iodine in cell-mediated immunity and is an important component of many immune cells. 28 Additionally, iodides also has many other biologic effects including regulating inflammation, improving immune cell bacteria phagocytosis, and boosting the innate immune system. 26 Iodine molecules are high instable and tend to sublimate. The development of unique iodine complex that provide better availability to the human and animal is very important. Dimethyl sulfoxide (DMSO), discovered in 1963, is an all-natural substance derived from wood pulp. It could penetrate the skin and other membranes without damaging them and could carry components into the biological system. DMSO is commonly used as a solvent to dissolve water-insoluble drugs or test samples in both in vivo and in vitro experiments. DMSO can readily induce oxidative stress, raise oxygen levels, and act as an antiviral agent. 29, 30 This compound has shown to revise septic conditions associated with viral infection-induced dysregulated immuno-inflammatory responses. 31, 32 Mechanistically, DMSO is a potent antioxidant that can regulate transcription factor activation in septic animals, and act as a carrier for other drugs. Several studies have been done on the effect of DMSO infusion for patients with cancer, showing efficacy with limited side effects. 33 Intra-venous infusion of DMSO with sodium bicarbonate brought on symptomatic relief in patients with metastatic prostate cancer, 34 and demonstrated better pain control for refractory cancer pain. 35 Morbidity, mortality, infectiveness and spread of infectious diseases are dependent on the hostpathogen relationship. Given the lack of effective and safe antiviral drugs for COVID-19, we should place more attention in supporting host immune defense, cytoprotection, and immunoregulation. We propose using a combination of Zinc Iodide ( ZnI 2 ) with Dimethyl Sulfoxide for the prevention and treatment of viral infection and sepsis. The therapeutic compound combines the two ingredients ZnI2 and DMSO might have strong synergetic efficacy in controlling symptoms, preventing, and treating all types of viral infections. Viral infections such as SAR-CoV-2 (COVID-19), influenza, RSV, and many others are usually associated with increased oxidative stress leading to oxidative cellular and tissue damages resulting in multi-organ failure. The proposed therapeutic combination of Zinc Iodide-DMSO can be used effectively for the treatment of SARS-CoV-2 infected patients by suppressing viral replication and virulence, decreasing inflammation and reducing organ damages. Zinc Iodide-DMSO might also be used as a preventive agent for respiratory viral infections including SARS-CoV-2 by boosting the innate immune defense and reducing pathogen infectiveness. Further clinical trials are needed to validate the effectiveness and develop an optimal therapeutic protocol for possible application of Zinc Iodide-DMSO in patients with viral infections. Update: Public Health Response to the Coronavirus Disease 2019 Outbreak-United States Cellular and molecular dynamics in the foreign body reaction Zinc ions inhibit replication of rhinoviruses Inhibition of the particle-associated RNA-dependent RNA polymerase activity of influenza viruses by chelating agents PDTC inhibits picornavirus polyprotein processing and RNA replication by transporting zinc ions into cells Antiviral activity of the zinc ionophores pyrithione and hinokitiol against picornavirus infections Zinc: a potential antiviral against hepatitis E virus infection? Zn2+ inhibits coronavirus and arterivirus RNA polymerase activity in vitro and zinc ionophores block the replication of these viruses in cell culture Characterization of soluble hepatitis C virus RNA-dependent RNA polymerase expressed in Escherichia coli Biochemical characterization of rhinovirus RNA-dependent RNA polymerase Zinc and immune function Function and mechanism of zinc metalloenzymes Zinc and immunity: An essential interrelation. Archives of biochemistry and biophysics Zinc supplementation decreases incidence of infections in the elderly: effect of zinc on generation of cytokines and oxidative stress. 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