1.
Can Natural Polyphenols Help in Reducing Cytokine Storm in COVID-19 Patients?
Giovinazzo, G, Gerardi, C, Uberti-Foppa, C, Lopalco, L
Molecules (Basel, Switzerland). 2020;25(24)
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During covid-19 infection the body experiences a hyper-immune reaction resulting in an extreme inflammatory response known as cytokine release syndrome (CRS), which correlates with poor prognosis and severe illness. There are no effective treatments for CRS, although there are ongoing trials. The use of natural plant chemicals known as polyphenols have been shown in previous trials to improve inflammation This review of over 90 studies aimed to summarise the use of polyphenols to fight severe covid-19 infection. The paper began by reviewing current drug therapies, which have been shown in studies to be of benefit to inflammation, with tocilizumab being heavily reviewed. The authors then reviewed several plant polyphenols and reviewed how they can modulate inflammation through inhibiting inflammatory molecules and viral activity. It was concluded that human studies are lacking data and so phytochemicals may be promising for the treatment of covid-19. This study could be used by health care professionals to understand the importance of recommending a whole food, plant rich diet with many different coloured foods for individuals who are suffering from covid-19.
Abstract
SARS-CoV-2 first emerged in China during late 2019 and rapidly spread all over the world. Alterations in the inflammatory cytokines pathway represent a strong signature during SARS-COV-2 infection and correlate with poor prognosis and severity of the illness. The hyper-activation of the immune system results in an acute severe systemic inflammatory response named cytokine release syndrome (CRS). No effective prophylactic or post-exposure treatments are available, although some anti-inflammatory compounds are currently in clinical trials. Studies of plant extracts and natural compounds show that polyphenols can play a beneficial role in the prevention and the progress of chronic diseases related to inflammation. The aim of this manuscript is to review the published background on the possible effectiveness of polyphenols to fight SARS-COV-2 infection, contributing to the reduction of inflammation. Here, some of the anti-inflammatory therapies are discussed and although great progress has been made though this year, there is no proven cytokine blocking agents for COVID currently used in clinical practice. In this regard, bioactive phytochemicals such as polyphenols may become promising tools to be used as adjuvants in the treatment of SARS-CoV-2 infection. Such nutrients, with anti-inflammatory and antioxidant properties, associated to classical anti-inflammatory drugs, could help in reducing the inflammation in patients with COVID-19.
2.
Metabolic Slowing and Reduced Oxidative Damage with Sustained Caloric Restriction Support the Rate of Living and Oxidative Damage Theories of Aging.
Redman, LM, Smith, SR, Burton, JH, Martin, CK, Il'yasova, D, Ravussin, E
Cell metabolism. 2018;27(4):805-815.e4
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Following a calorie-restricted diet while maintaining adequate nutrition is known to have a beneficial effect on increasing longevity and promoting healthy ageing. Oxidative stress resulting from reactive oxygen species formation in mitochondria plays a role in accelerating ageing by damaging DNA, proteins and lipids. A calorie-restriction diet can reduce oxidative stress and cause metabolic adaptations. In this ancillary study, non-obese participants were randomly assigned to either a calorie restriction group which followed 25% calorie restriction while getting adequate nutritional support through supplementation or to a control group which included ad libitum calorie intake. After 2 years of intervention, participants in the calorie restriction group achieved 15% calorie restriction, 8.7kg weight loss and a reduction in 24-hour energy expenditure and sleep energy expenditure beyond weight loss because of metabolic adaptation. Oxidative stress and thyroid axis activity were also reduced in the calorie restriction group. Further robust studies are required to evaluate the effectiveness of calorie restriction in metabolic adaptation and oxidative stress and its effects on ageing. The results of this study can be used by healthcare professionals to understand the benefits of a nutritionally adequate calorie restriction diet on adjusting metabolic processes.
Abstract
Calorie restriction (CR) is a dietary intervention with potential benefits for healthspan improvement and lifespan extension. In 53 (34 CR and 19 control) non-obese adults, we tested the hypothesis that energy expenditure (EE) and its endocrine mediators are reduced with a CR diet over 2 years. Approximately 15% CR was achieved over 2 years, resulting in an average 8.7 kg weight loss, whereas controls gained 1.8 kg. In the CR group, EE measured over 24 hr or during sleep was approximately 80-120 kcal/day lower than expected on the basis of weight loss, indicating sustained metabolic adaptation over 2 years. This metabolic adaptation was accompanied by significantly reduced thyroid axis activity and reactive oxygen species (F2-isoprostane) production. Findings from this 2-year CR trial in healthy, non-obese humans provide new evidence of persistent metabolic slowing accompanied by reduced oxidative stress, which supports the rate of living and oxidative damage theories of mammalian aging.