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https://www.selleckchem.com/products/ox04528.html In December 2019, an emergence of pneumonia was detected in patients infected with a novel coronavirus (CoV) in Wuhan (Hubei, China). The International Committee on Taxonomy of Viruses named the virus severe acute respiratory syndrome‑CoV‑2 and the disease CoV disease‑19 (COVID‑19). Patients with COVID‑19 present with symptoms associated with respiratory system dysfunction and hematological changes, including lymphopenia, thrombocytopenia and coagulation disorders. However, to the best of our knowledge, the pathogenesis of COVID‑19 remains unclear. Therefore, understanding the mechanisms underlying the hematological changes that manifest during COVID‑19 may aid in the development of treatments and may improve patient prognosis.Arsenic trioxide (ATO) is a frontline chemotherapy drug used in the therapy of acute promyelocytic leukemia. However, the clinical use of ATO is hindered by its cardiotoxicity. The present study aimed to observe the potential effects and underlying mechanisms of tannic acid (TA) against ATO‑induced cardiotoxicity. Male rats were intraperitoneally injected with ATO (5 mg/kg/day) to induce cardiotoxicity. TA (20 and 40 mg/kg/day) was administered to evaluate its cardioprotective efficacy against ATO‑induced heart injury in rats. Administration of ATO resulted in pathological damage in the heart and increased oxidative stress as well as levels of serum cardiac biomarkers creatine kinase and lactate dehydrogenase and the inflammatory marker NF‑κB (p65). Conversely, TA markedly reversed this phenomenon. Additionally, TA treatment caused a notable decrease in the expression levels of cleaved caspase‑3/caspase‑3, Bax, p53 and Bad, while increasing Bcl‑2 expression levels. Notably, the application of TA decreased the expression levels of cytochrome c, second mitochondria‑derived activator of caspases and high‑temperature requirement A2, which are apoptosis mitochondrial‑associated proteins. The present
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