Author: Doustimotlagh, Amir Hossein; Eftekhari, Mahdieh
Title: Glucose-6-Phosphate Dehydrogenase inhibitor for treatment of severe COVID-19: Polydatin Cord-id: 5jsvovbz Document date: 2021_3_15
ID: 5jsvovbz
Snippet: The COVID-19 pandemic as the largest global public health crisis is now considered as an emergency at the World Health Organization (WHO). As there is no specific therapy for SARS-CoV-2 infection at present and also because of the long time it takes to discover a new drug and the urgent need to respond urgently to a pandemic infection. Oxidative stress and inflammation play a vital role in the progression of tissue injury in COVID-19 patients; furthermore, the G6PD activation is related to incre
Document: The COVID-19 pandemic as the largest global public health crisis is now considered as an emergency at the World Health Organization (WHO). As there is no specific therapy for SARS-CoV-2 infection at present and also because of the long time it takes to discover a new drug and the urgent need to respond urgently to a pandemic infection. Oxidative stress and inflammation play a vital role in the progression of tissue injury in COVID-19 patients; furthermore, the G6PD activation is related to increased oxidative inflammation in acute pulmonary injury. In this regard, we propose a new insight that may be a good strategy for this urgency. Exploiting G6PD through inhibiting G6PD activity by modifying redox balance, metabolic switching and protein-protein interactions can be proposed as a new approach to improving patients in severe stage of COVID 19 through various mechanisms. Polydatin is isolated from many plants such as Polygonum, peanuts, grapes, red wines and many daily diets that can be used in severe stage of COVID-19 as a G6PD inhibitor. Furthermore, polydatin possesses various biological activities such as anti-inflammatory, antioxidant, immunoregulatory, nephroprotective, hepatoprotective, anti-arrhythmic and anti-tumor. Our hypothesis is that the consumption of antioxidants such as Polydatin (a glucoside of resveratrol) as a complementary therapeutic approach may be effective in reducing oxidative stress and inflammation in patients with COVID-19.
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