The potential role of ferroptosis in COVID-19-related cardiovascular injury - 11/11/23
, Yanchun Li b, ⁎ , Jing Du a, ⁎
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Abstract |
COVID-19, caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), emerged as a global health threat in 2019. An important feature of the disease is that multiorgan symptoms of SARS-CoV-2 infection persist after recovery. Evidence indicates that people who recovered from COVID-19, even those under the age of 65 years without cardiovascular risk factors such as smoking, obesity, hypertension, and diabetes, had a significantly increased risk of cardiovascular disease for up to one year after diagnosis. Therefore, it is important to closely monitor individuals who have recovered from COVID-19 for potential cardiovascular damage that may manifest at a later stage. Ferroptosis is an iron-dependent form of non-apoptotic cell death characterized by the production of reactive oxygen species (ROS) and increased lipid peroxide levels. Several studies have demonstrated that ferroptosis plays an important role in cancer, ischemia/reperfusion injury (I/RI), and other cardiovascular diseases. Altered iron metabolism, upregulation of reactive oxygen species, and glutathione peroxidase 4 inactivation are striking features of COVID-19-related cardiovascular injury. SARS-CoV-2 can cause cardiovascular ferroptosis, leading to cardiovascular damage. Understanding the mechanism of ferroptosis in COVID-19-related cardiovascular injuries will contribute to the development of treatment regimens for preventing or reducing COVID-19-related cardiovascular complications. In this article, we go over the pathophysiological underpinnings of SARS-CoV-2-induced acute and chronic cardiovascular injury, the function of ferroptosis, and prospective treatment approaches.
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Highlights |
• | SARS-CoV-2 infection can cause severe cardiovascular injury through various mechanisms. |
• | Ferroptosis may play a significant role in the pathogenesis of COVID-19-related cardiovascular injury. |
• | The inhibition of ferroptosis may become a therapeutic target for COVID-19-related cardiovascular injury. |
Abbreviations : AA, ACE2, ACS, ACSL4, AdA, ARDS, CMR, CoQ10, CO, COVID-19, DFO, DHODH, DMT1, DXZ, ERS, ETC, Fe2+, Fe3+, Fer-1, FPN, FSP1, FTH, FTL, GPX4, GSH, GSSG, hESCs, HIV, HMOX-1, HO•,, H2O2,, I/RI, IL, KEAP1, Lip-1, LOOH, LOX, LPCAT3, Mito-MES, MMP, mtROS, NAC, NCOA4, NOXs, NRF2, Orf9b, Orf3a, OXPHOS, O2•−,, PL, PLOOH, PL-PUFA-OH, PL-PUFA-OOH, PUFA-CoA, PUFA-PLs, PUFAs, RAAS, ROS, SAN, SARS-CoV-2, system Xc-, TF, TfR1, TOM70, XO
Keywords : COVID-19, Ferroptosis, Cardiovascular injury, SARS-CoV-2, Long-COVID, Iron
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Vol 168
Articolo 115637- dicembre 2023 Ritorno al numero
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