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The pharmacological mechanism of quercetin as adjuvant therapy of COVID-19

Rizky et al., Life Research, doi:10.53388/life2022-0205-302

May 2022

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Quercetin for COVID-19

22nd treatment shown to reduce risk in July 2021

^*, now known with p = 0.0031 from 11 studies.

Lower risk for ICU admission, hospitalization, recovery, cases, and viral clearance.

No treatment is 100% effective. Protocols combine complementary and synergistic treatments. ^* >10% efficacy in meta analysis with ≥3 clinical studies.

4,000+ studies for 60+ treatments. c19early.org

Review of in silico and clinical evidence supporting the use of quercetin for COVID-19.

Reviews covering quercetin for COVID-19 include Agrawal, Biancatelli, Chen, Derosa, Dinda, Gasmi, Georgiou, Imran, Massimo Magro, Matías-Pérez, Mirza, Rizky, Shorobi, Vajdi, Yong.

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1. Agrawal et al., Antiviral Significance of Isoquercetin (Quercetin-3-O-Glucoside) With Special Reference to its Anti-Coronaviral Potential, Natural Product Communications, doi:10.1177/1934578X231219560.sagepub.com, doi.org.

2. Biancatelli et al., Quercetin and Vitamin C: An Experimental, Synergistic Therapy for the Prevention and Treatment of SARS-CoV-2 Related Disease (COVID-19), Frontiers in Immunology, doi:10.3389/fimmu.2020.01451.frontiersin.org, doi.org.

3. Chen et al., Effect and mechanism of quercetin or quercetin‐containing formulas against COVID‐19: From bench to bedside, Phytotherapy Research, doi:10.1002/ptr.8175.wiley.com, doi.org.

4. Derosa et al., A role for quercetin in coronavirus disease 2019 (COVID-19), Phytotherapy Research, doi:10.1002/ptr.6887.wiley.com, doi.org.

5. Dinda et al., Anti-SARS-CoV-2, antioxidant and immunomodulatory potential of dietary flavonol quercetin: Focus on molecular targets and clinical efficacy, European Journal of Medicinal Chemistry Reports, doi:10.1016/j.ejmcr.2023.100125.sciencedirect.com, doi.org.

6. Gasmi et al., Quercetin in the Prevention and Treatment of Coronavirus Infections: A Focus on SARS-CoV-2, Pharmaceuticals, doi:10.3390/ph15091049.mdpi.com, doi.org.

7. Georgiou et al., Quercetin: A Potential Polydynamic Drug, Molecules, doi:10.3390/molecules28248141.mdpi.com, doi.org.

8. Imran et al., The Therapeutic and Prophylactic Potential of Quercetin against COVID-19: An Outlook on the Clinical Studies, Inventive Compositions, and Patent Literature, Antioxidants, doi:10.3390/antiox11050876.mdpi.com, doi.org.

9. Massimo Magro et al., Use of Quercetin for Therapeutic Purposes in COVID-19 Infections: The Opinion of the Geriatrician Doctor, Journal of Modern Biology and Drug Discovery, doi:10.53964/jmbdd.2023004.innovationforever.com, doi.org.

10. Matías-Pérez et al., Relationship of quercetin intake and oxidative stress in persistent Covid, Frontiers in Nutrition, doi:10.3389/fnut.2023.1278039.frontiersin.org, doi.org.

11. Mirza et al., Quercetin as a Therapeutic Product: Evaluation of Its Pharmacological Action and Clinical Applications—A Review, Pharmaceuticals, doi:10.3390/ph16111631.mdpi.com, doi.org.

12. Rizky et al., The pharmacological mechanism of quercetin as adjuvant therapy of COVID-19, Life Research, doi:10.53388/life2022-0205-302.tmrjournals.com, doi.org.

13. Shorobi et al., Quercetin: A Functional Food-Flavonoid Incredibly Attenuates Emerging and Re-Emerging Viral Infections through Immunomodulatory Actions, Molecules, doi:10.3390/molecules28030938.mdpi.com, doi.org.

14. Vajdi et al., Effect of polyphenols against complications of COVID-19: current evidence and potential efficacy, Pharmacological Reports, doi:10.1007/s43440-024-00585-6.springer.com, doi.org.

15. Yong et al., Natural Products-Based Inhaled Formulations for Treating Pulmonary Diseases, International Journal of Nanomedicine, doi:10.2147/ijn.s451206.dovepress.com, doi.org.

Rizky et al., 15 May 2022, peer-reviewed, 5 authors.

This Paper Quercetin All

Wahyu Choirur Rizky, Muhammad Candragupta Jihwaprani, Avicena Al Kindi, Arif Nur, Muhammad Ansori, Mazhar Mushtaq

doi:10.53388/life2022-0202-302

oral supplements such as zinc, vitamin C, vitamin D, folic acid [5] , and flavonoids such as quercetin, as adjuvant pharmacotherapy in the management of . Quercetin (3, 3', 4', 5, 7-pentahydroxyfl avone) (C15H10O7) is a major polyphenol that belongs to the fl avonoid family. It is categorized as fl avonol, one of the six subclasses of fl avonoid compounds. Being the most abundant form of flavonoid molecules, quercetins are ubiquitously distributed in a variety of dietary plants, including apple, berries, onion, kale, tea, tomato, grape, as well as nuts. Furthermore, it is also aff ordably marketed in the form of tablet dietary supplements. Various in vitro and animal model studies have shown that quercetin has numerous physiological eff ects, including antioxidant, anti-infl ammatory, immunomodulatory, and antiviral properties. There is well-documented evidence pointing toward its eff ects in attenuating lipid peroxidation, platelet aggregation, and capillary permeability, which cumulatively result in cardioprotective eff ects, as well as anti-carcinogenic properties [7] . Too few human studies address the effectiveness of quercetin, specifically in the management of viral respiratory infection. Notwithstanding, some human studies have provided signifi cant results in specifi c populations with non-infectious causes of respiratory disease [8] [9] [10] [11] . Current evidence shows the specific pathomechanics of COVID-19-associated acute respiratory distress syndrome (CARDS), which include severe inflammation and pulmonary edema leading to impaired alveolar homeostasis, and alteration of lung physiology, and resulting in lung fi brosis, infl ammation of endothelium, vascular thrombosis, as well as an exaggerated immune response [12] . during the writing of this review [2] . Ergo, scientists and researchers are racing the clock and breaking records to develop COVID-19 vaccines and repurpose several therapeutic options to treat mild to severe COVID-19. Recently, albeit several trials that are underway to produce safe and effective vaccines, in conjunction with its distribution, over 4.9 million vaccine doses have been administered worldwide and obtained emergency use authorization by The United States food and drug administration (FDA) [2] . However, an approach called drug repurposed under ACTIV-6 protocol has been created by the national institute of health (NIH) to explore a pool of up to seven drugs approved by the FDA for other diseases, particularly antiviral drug remdesivir, the anti-infl ammatory baricitinib, and corticosteroid (e.g. dexamethasone) for treating mild to moderate 4] . Furthermore, there have been numerous ongoing trials evaluating

Funding The authors received no specifi c funding for this work. Author contribution All authors contributed equally to the manuscript and read and approved the fi nal version of the manuscript. Competing interests The authors declare no confl icts of interest. Abbreviations TCMSP, traditional Chinese medicine systems pharmacology; SARS-CoV-2, severe acute respiratory syndrome coronavirus-2; ACE2, angiotensin-converting enzyme 2; Mpro, main protease; 3CLpro, 3C-like protease; PLpro, Papain-like protease; RdRP, RNA-dependent RNA polymerase; COVID-19, Coronavirus Disease; NIH, national institute of health; CARDS, COVID-19-associated acute respiratory distress syndrome; SARS-CoV, SARS-Associated Coronavirus; MERS-CoV, Middle East respiratory syndrome coronavirus; WHO, World Health Organization; FDA, food and drug administration; SPR, Surface Plasmon Resonance; GO, Gene Ontology; rhACE2, recombinant human ACE2; IC50, inhibitory concentration; GEO, gene expression omnibus; SPR/FRET, surface plasmon resonance/fl uorescence resonance energy transfer; GSEA, Gene Set Enrichment Analyses; ITC, Isothermal titration calorimetry; WURSS, Wisconsin Upper Respiratory Symptom Survey; SFT-PC, surfactant protein-C; RDNI, Reduning Injection Peer review information Life Research thanks Kaloyan Asenov Kaloyanov, George Kluck, Sergio Sanchez Gambetta Dong Zhao Pratichi Singh Pravin D. Potdar for their contribution to the peer review of this paper.

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