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Immune-Boosting and Antiviral Effects of Antioxidants in COVID-19 Pneumonia: A Therapeutic Perspective

Sanduzzi Zamparelli et al., Life, doi:10.3390/life15010113

Jan 2025

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Melatonin for COVID-19

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Review of immune-boosting and antiviral effects of antioxidants in COVID-19 pneumonia. Authors provide an overview of the literature on the use of antioxidants, including vitamins, trace elements, ozone, glutathione, L-carnitine, melatonin, bromelain, N-acetylcysteine, and numerous polyphenols, in hospitalized patients with mild-to-moderate COVID-19. These molecules support endothelial function, reduce thrombosis risk, and may help mitigate the effects of the cytokine storm through their ROS-scavenging properties. Clinical evidence suggests that antioxidant supplementation may decrease inflammation, support immune cell function, shorten recovery times, and exert direct antiviral effects that inhibit the infection and replication of SARS-CoV-2 in host cells.

Reviews covering melatonin for COVID-19 include1-23.

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Review covers vitamin A, vitamin C, vitamin D, zinc, quercetin, curcumin, melatonin, N-acetylcysteine, and selenium.

1. Sanduzzi Zamparelli et al., Immune-Boosting and Antiviral Effects of Antioxidants in COVID-19 Pneumonia: A Therapeutic Perspective, Life, doi:10.3390/life15010113.mdpi.com, doi.org.

2. Xie et al., The role of reactive oxygen species in severe acute respiratory syndrome coronavirus 2 (SARS-COV-2) infection-induced cell death, Cellular & Molecular Biology Letters, doi:10.1186/s11658-024-00659-6.biomedcentral.com, doi.org.

3. Zhao et al., Melatonin Potentially Acts as a Widely-Acting Protective Tool in COVID-19, Medicine Research, doi:10.21127/yaoyimr20240006.medicineresearch.org, doi.org.

4. Yehia et al., Melatonin: a ferroptosis inhibitor with potential therapeutic efficacy for the post-COVID-19 trajectory of accelerated brain aging and neurodegeneration, Molecular Neurodegeneration, doi:10.1186/s13024-024-00728-6.biomedcentral.com, doi.org.

5. Chacin-Bonilla et al., Melatonin and viral infections: A review focusing on therapeutic effects and SARS-CoV-2, Melatonin Research, doi:10.32794/mr112500168.melatonin-research.net, doi.org.

6. Lempesis et al., A mid‑pandemic night's dream: Melatonin, from harbinger of anti‑inflammation to mitochondrial savior in acute and long COVID‑19 (Review), International Journal of Molecular Medicine, doi:10.3892/ijmm.2024.5352.spandidos-publications.com, doi.org.

7. Alomari et al., Assessing the antiviral potential of melatonin: A comprehensive systematic review, Reviews in Medical Virology, doi:10.1002/rmv.2499.wiley.com, doi.org.

8. Donzelli, A., Neglected Effective Early Therapies against COVID-19: Focus on Functional Foods and Related Active Substances. A Review, MDPI AG, doi:10.20944/preprints202312.1178.v1.preprints.org, doi.org.

9. Langen, M., Melatonin - the Hormone of Both Sun and Darkness - Protects Your Health and Can Save Your Life, Rounding The Earth, roundingtheearth.substack.com/p/melatonin-the-hormone-of-both-sun.substack.com.

10. Hosseinzadeh et al., Melatonin effect on platelets and coagulation: Implications for a prophylactic indication in COVID-19, Life Sciences, doi:10.1016/j.lfs.2022.120866.sciencedirect.com, doi.org.

11. Loh et al., Melatonin: Regulation of Viral Phase Separation and Epitranscriptomics in Post-Acute Sequelae of COVID-19, International Journal of Molecular Sciences, doi:10.3390/ijms23158122.mdpi.com, doi.org.

12. Reiter et al., Melatonin: highlighting its use as a potential treatment for SARS-CoV-2 infection, Cellular and Molecular Life Sciences, doi:10.1007/s00018-021-04102-3.springer.com, doi.org.

13. Tan et al., Mechanisms and clinical evidence to support melatonin's use in severe COVID-19 patients to lower mortality, Life Sciences, doi:10.1016/j.lfs.2022.120368.sciencedirect.com, doi.org.

14. Behl et al., CD147-spike protein interaction in COVID-19: Get the ball rolling with a novel receptor and therapeutic target, Science of The Total Environment, doi:10.1016/j.scitotenv.2021.152072.sciencedirect.com, doi.org.

15. Castle et al., Implications for Systemic Approaches to COVID-19: Effect Sizes of Remdesivir, Tocilizumab, Melatonin, Vitamin D3, and Meditation, Journal of Inflammation Research, doi:10.2147/JIR.S323356.dovepress.com, doi.org.

16. Ramos et al., The Coronavirus Disease 2019 (COVID-19): Key Emphasis on Melatonin Safety and Therapeutic Efficacy, Antioxidants, doi:10.3390/antiox10071152.mdpi.com, doi.org.

17. Camp et al., Melatonin interferes with COVID-19 at several distinct ROS-related steps, Journal of Inorganic Biochemistry, doi:10.1016/j.jinorgbio.2021.111546.sciencedirect.com, doi.org.

18. Cross et al., Melatonin for the Early Treatment of COVID-19: A Narrative Review of Current Evidence and Possible Efficacy, Endocrine Practice, doi:10.1016/j.eprac.2021.06.001.sciencedirect.com, doi.org.

19. DiNicolantonio et al., Melatonin may decrease risk for and aid treatment of COVID-19 and other RNA viral infections, Open Heart, doi:10.1136/openhrt-2020-001568.bmj.com, doi.org.

20. Reiter (B) et al., Therapeutic Algorithm for Use of Melatonin in Patients With COVID-19, Frontiers in Medicine, doi:10.3389/fmed.2020.00226.frontiersin.org, doi.org.

21. Charaa et al., Prophylactic Treatment Protocol against the Severity of COVID-19 Using Melatonin, SSRN, doi:10.2139/ssrn.3601861.ssrn.com, doi.org.

22. Shneider et al., Can melatonin reduce the severity of COVID-19 pandemic?, International Reviews of Immunology, doi:10.1080/08830185.2020.1756284.tandfonline.com, doi.org.

23. Zhang et al., COVID-19: Melatonin as a potential adjuvant treatment, Life Sciences, doi:10.1016/j.lfs.2020.117583.sciencedirect.com, doi.org.

Sanduzzi Zamparelli et al., 16 Jan 2025, peer-reviewed, 3 authors. Contact: stefanosanduzzi@gmail.com (corresponding author), sanduzzi@unina.it, marialuisa.bocchino@unina.it.

This Paper Melatonin All

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Antioxidants ' 'have garnered considerable attention for their potential role in managing COVID-19 pneumonia ' 'by mitigating oxidative stress and modulating immune responses. This review provides a ' 'comprehensive overview of the literature on the use of antioxidants in hospitalized patients ' 'with mild-to-moderate COVID-19. Studies exploring antioxidants, including vitamins, trace ' 'elements, nitric oxide (NO), ozone (O3), glutathione (GSH), L-carnitine, melatonin, ' 'bromelain, N-acetylcysteine (NAC), and numerous polyphenols, have yielded promising outcomes. ' 'Through their ROS-scavenging properties, these molecules support endothelial function, reduce ' 'the thrombosis risk, and may help mitigate the effects of the cytokine storm, a key ' 'contributor to COVID-19 morbidity and mortality. Clinical evidence suggests that antioxidant ' 'supplementation may improve patient outcomes by decreasing inflammation, supporting immune ' 'cell function, and potentially shortening recovery times. Furthermore, these molecules may ' 'mitigate the symptoms of COVID-19 by exerting direct antiviral effects that inhibit the ' 'infection process and genomic replication of SARS-CoV-2 in host cells. Moreover, antioxidants ' 'may work synergistically with standard antiviral treatments to reduce viral-induced oxidative ' 'damage. By integrating findings from the literature with real-world data from our clinical ' 'experience, we gain a more profound understanding of the role of antioxidants in managing ' 'COVID-19 pneumonia. Further research combining comprehensive literature reviews with ' 'real-world data analysis is crucial to validate the efficacy of antioxidants and establish ' 'evidence-based guidelines for their use in clinical practice.', 'DOI': '10.3390/life15010113', 'type': 'journal-article', 'created': {'date-parts': [[2025, 1, 16]], 'date-time': '2025-01-16T15:44:23Z', 'timestamp': 1737042263000}, 'page': '113', 'source': 'Crossref', 'is-referenced-by-count': 0, 'title': 'Immune-Boosting and Antiviral Effects of Antioxidants in COVID-19 Pneumonia: A Therapeutic ' 'Perspective', 'prefix': '10.3390', 'volume': '15', 'author': [ { 'ORCID': 'https://orcid.org/0000-0003-3336-7290', 'authenticated-orcid': False, 'given': 'Stefano', 'family': 'Sanduzzi Zamparelli', 'sequence': 'first', 'affiliation': [ { 'name': 'Division of Pneumology and Semi-intensive Respiratory Therapy, ' 'A. Cardarelli Hospital, 80131 Naples, Italy'}]}, { 'ORCID': 'https://orcid.org/0000-0002-0977-2643', 'authenticated-orcid': False, 'given': 'Alessandro', 'family': 'Sanduzzi Zamparelli', 'sequence': 'additional', 'affiliation': [ { 'name': 'Department of Clinical Medicine and Surgery, University of ' 'Naples “Federico II”, 80131 Naples, Italy'}, { 'name': 'UNESCO Chair for Health Education and Sustainable Development, ' 'University of Naples “Federico II”, 80131 Naples, Italy'}, {'name': 'ERN Lung, 60596 Frankfurt am Main, Germany'}]}, { 'given': 'Marialuisa', 'family': 'Bocchino', 'sequence': 'additional', 'affiliation': [ { 'name': 'Department of Clinical Medicine and Surgery, University of ' 'Naples “Federico II”, 80131 Naples, Italy'}]}], 'member': '1968', 'published-online': {'date-parts': [[2025, 1, 16]]}, 'container-title': 'Life', 'original-title': [], 'language': 'en', 'link': [ { 'URL': 'https://www.mdpi.com/2075-1729/15/1/113/pdf', 'content-type': 'unspecified', 'content-version': 'vor', 'intended-application': 'similarity-checking'}], 'deposited': { 'date-parts': [[2025, 1, 16]], 'date-time': '2025-01-16T16:03:24Z', 'timestamp': 1737043404000}, 'score': 1, 'resource': {'primary': {'URL': 'https://www.mdpi.com/2075-1729/15/1/113'}}, 'subtitle': [], 'short-title': [], 'issued': {'date-parts': [[2025, 1, 16]]}, 'references-count': 0, 'journal-issue': {'issue': '1', 'published-online': {'date-parts': [[2025, 1]]}}, 'alternative-id': ['life15010113'], 'URL': 'http://dx.doi.org/10.3390/life15010113', 'relation': {}, 'ISSN': ['2075-1729'], 'subject': [], 'container-title-short': 'Life', 'published': {'date-parts': [[2025, 1, 16]]}}

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