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Sunday, October 17, 2021

Melatonin attenuates low shear stress-induced pyroptosis and endothelial cell dysfunction via the RORĪ±/miR-223/STAT-3 signalling pathway

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Exp Ther Med. 2021 Dec;22(6):1392. doi: 10.3892/etm.2021.10828. Epub 2021 Sep 30.

ABSTRACT

Endothelial cells sense changes in blood flow shear stress and affect the progression of atherosclerotic plaques. Pyroptosis is an inflammatory form of cell death and has been implicated in cardiovascular diseases. Melatonin and its nuclear receptor retinoid-related orphan receptor Ī± (RORĪ±) have protective effects on the development of atherosclerosis. To date, whether melatonin can prevent endothelial cell pyroptosis and dysfunction in pathological shear stress remains unclear. In the present study, human umbilical vein endothelial cells (ECs) were cultured under low shear stress conditions (5 dyne/cm2) for 24 h and treated with or without melatonin (2 Āµmol/l). The binding sites of the microRNA (miR)-223 promoter and RORĪ± were predicted using the JASPAR website. Expression of pyroptosis-related proteins, including cleaved N-termin al gasdermin D, caspase-1, intercellular adhesion molecule 1 (ICAM-1) and nitric oxide (NO) were assessed. The results indicated that low shear stress increased pyroptosis and ICAM-1 expression, whereas it decreased NO levels. Melatonin alleviated pyroptosis and ICAM-1 expression and increased the production of NO in ECs. Further assessment revealed that low-level shear stress decreased RORĪ± protein and mRNA expression, whereas melatonin would bind to RORĪ± and thereby promoted miR-223 transcription in ECs. The present study also identified signal transducer and activator of transcription 3 (STAT-3) as a potential target gene of miR-223-3p. When transfected with miR-223 inhibitor, ECs up-regulated the expression of pyroptosis-related proteins and ICAM-1, and down-regulated NO levels. By contrast, silencing STAT-3 expression diminished the protective effect of miR-223. These results indicated that melatonin prevented ECs from undergoing pyroptosis and alleviated dysfunction via the RORĪ±/miR-223/STAT-3 signalling pathway. This information could aid in the development of novel therapeutic approaches and provide new insights into atherosclerosis.

PMID:34650640 | PMC:PMC8506941 | DOI:10.3892/etm.2021.10828

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