Redox control in the pathophysiology of influenza virus infection

Chen, Ker-Kong; Minakuchi, Moeko; Wuputra, Kenly; Ku, Chia‐Chen; Pan, Jiaping; Kuo, Kung‐Kai; Lin, Ying‐Chu; Saito, Shoji; Lin, Chang-Shen; Yokoyama, Kazunari K.

doi:10.1186/s12866-020-01890-9

Cited by 51 publications

(41 citation statements)

References 257 publications

(371 reference statements)

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“…One of the key features of the complex interaction between nutrients and the oxidative stress/inflammatory response is the differential regulation of NFκB and Nrf2 by the cell redox status [118 ]. Nrf2 and NFκb are present in an inactive form in the cytosol since they are linked to an inhibitory compound iNFκB or INrf2 (Keap 1), both targets of reactive oxygen species [119–121 ]. In the case of a large production of ROS, which would overwhelm the antioxidant defence, iNFκB is oxidized and catabolized.…”

Section: Introductionmentioning

confidence: 99%

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Nrf2-interacting nutrients and COVID-19: time for research to develop adaptation strategies

Bousquet

Cristol

Czarlewski³

et al. 2020

Clin Transl Allergy

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There are large between- and within-country variations in COVID-19 death rates. Some very low death rate settings such as Eastern Asia, Central Europe, the Balkans and Africa have a common feature of eating large quantities of fermented foods whose intake is associated with the activation of the Nrf2 (Nuclear factor (erythroid-derived 2)-like 2) anti-oxidant transcription factor. There are many Nrf2-interacting nutrients (berberine, curcumin, epigallocatechin gallate, genistein, quercetin, resveratrol, sulforaphane) that all act similarly to reduce insulin resistance, endothelial damage, lung injury and cytokine storm. They also act on the same mechanisms (mTOR: Mammalian target of rapamycin, PPARγ:Peroxisome proliferator-activated receptor, NFκB: Nuclear factor kappa B, ERK: Extracellular signal-regulated kinases and eIF2α:Elongation initiation factor 2α). They may as a result be important in mitigating the severity of COVID-19, acting through the endoplasmic reticulum stress or ACE-Angiotensin-II-AT1R axis (AT1R) pathway. Many Nrf2-interacting nutrients are also interacting with TRPA1 and/or TRPV1. Interestingly, geographical areas with very low COVID-19 mortality are those with the lowest prevalence of obesity (Sub-Saharan Africa and Asia). It is tempting to propose that Nrf2-interacting foods and nutrients can re-balance insulin resistance and have a significant effect on COVID-19 severity. It is therefore possible that the intake of these foods may restore an optimal natural balance for the Nrf2 pathway and may be of interest in the mitigation of COVID-19 severity.

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Section: Introductionmentioning

confidence: 99%

“…Once produced, cytokines are able to activate oxidant production by the NADPH oxidase complex, leading to an oxidative burst, which could in turn enhance NFκB activation. Thus, NFκB activation results in a directional and synergistic linkage of inflammation and oxidative stress [ 120 , 124 ].…”

Section: Introductionmentioning

confidence: 99%

Nrf2-interacting nutrients and COVID-19: time for research to develop adaptation strategies

Bousquet

Cristol

Czarlewski³

et al. 2020

Clin Transl Allergy

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“…The immune responses are closely associated with the redox balance. The redox milieu can modulate viral replication, including HIV, influenza, and respiratory syncytial viruses [44][45][46]. Antioxidant therapy may prove effective in the prevention of viral infection through redox control [47][48][49][50], while insufficient antioxidant capacity is conducive to viral production and virulence [51,52].…”

Section: Clinical Presentation Of G6pd Deficiency From Classical Drugmentioning

confidence: 99%

G6PD deficiency, redox homeostasis, and viral infections: implications for SARS-CoV-2 (COVID-19)

Yang

Tjong

et al. 2021

Free Radical Research

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“…Maintenance of a delicate oxidant-antioxidant balance is imperative for the promotion of viral replication, protection of viral genetic material and host cell from excessive oxidative damage and restraining the antiviral immune responses ( Lee, 2018b ; Reshi et al, 2014 ). Thus, tipping oxidant-antioxidant balance using pharmacological agents towards antioxidant state should promote viral replication and if shifted toward pro-oxidant state should result in enhanced oxidative stress and inhibition of the viral replication ( Chen et al, 2020a ; Lee, 2018b ; Nakamura et al, 2010 ). Hence, the administration of antioxidants like Vitamin C, which has been proved to be preventive against viral pneumonia, can serve as an ideal prevention strategy against viral infections; however, ROS induction can be superlative in disease therapy ( Hemilä and Louhiala, 2013 ; Kim et al, 2013 ).…”

Section: Insights Into Targeting Viral Rna By Ros Inducersmentioning

confidence: 99%

“…Hence, the administration of antioxidants like Vitamin C, which has been proved to be preventive against viral pneumonia, can serve as an ideal prevention strategy against viral infections; however, ROS induction can be superlative in disease therapy ( Hemilä and Louhiala, 2013 ; Kim et al, 2013 ). Further, there are several host redox and other associated genes which are modulated during a viral infection enabling the viral propagation and pathogenesis as depicted in Table 1 (( Ahmed and Rahman, 2006 ; Bender and Hildt, 2019 ; Bottino-Rojas et al, 2018 ; Checconi et al, 2020 ; Chen et al, 2020a ; Cuadrado et al, 2020 ; Jacoby and Choi, 1994 ; Lee, 2018a ; Simenauer et al, 2019 ; Zhang et al, 2020 ).…”

Section: Insights Into Targeting Viral Rna By Ros Inducersmentioning

confidence: 99%

Perspectives on mechanistic implications of ROS inducers for targeting viral infections

Nadhan

Patra

Krishnan

et al. 2021

European Journal of Pharmacology

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In this perspective, we propose to leverage reactive oxygen species (ROS) induction as a potential therapeutic measure against viral infections. Our rationale for targeting RNA viral infections by pro-oxidants is routed on the mechanistic hypothesis that ROS based treatment paradigm could impair RNA integrity faster than the other macromolecules. Though antiviral drugs with antioxidant properties confer potential abilities for preventing viral entry, those with pro-oxidant properties could induce the degradation of nascent viral RNA within the host cells, as RNAs are highly prone to ROS mediated degradation than DNA/proteins. We have previously established that Plumbagin is a highly potent ROS inducer, which acts through shifting of the host redox potential. Besides, it has been reported that Plumbagin treatment has the potential for interrupting viral RNA replication within the host cells. Since the on-going Corona Virus Disease - 2019 (COVID-19) global pandemic mediated by Severe Acute Respiratory Syndrome Corona Virus-2 (SARS-CoV-2) exhibits high infectivity, the development of appropriate antiviral therapeutic strategies remains to be an urgent unmet race against time. Therefore, additional experimental validation is warranted to determine the appropriateness of repurposable drug candidates, possibly ROS inducers, for fighting the pandemic which could lead to saving many lives from being lost to COVID-19.

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Redox control in the pathophysiology of influenza virus infection

Cited by 51 publications

References 257 publications

Nrf2-interacting nutrients and COVID-19: time for research to develop adaptation strategies

Nrf2-interacting nutrients and COVID-19: time for research to develop adaptation strategies

G6PD deficiency, redox homeostasis, and viral infections: implications for SARS-CoV-2 (COVID-19)

Perspectives on mechanistic implications of ROS inducers for targeting viral infections

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