Abstract

Intracranial atherosclerosis is one of the most common causes of ischaemic stroke. However, there is a substantial knowledge gap on the development of intracranial atherosclerosis. Intracranial arteries are characterized by an upregulation of tight junctions between endothelial cells, which control endothelial permeability. We investigated the role of N6-methyladenosine (m6A), a common RNA modification, on endothelial integrity, focusing on the pro-atherogenic microRNA miR-494-3p and tight junction proteins TJP1 and PECAM1. We assessed the m6A landscape, along with the expression of miR-494-3p, TJP1 and PECAM1 in postmortem human vertebral arteries (VA), internal carotid arteries (ICA), and middle cerebral arteries (MCA) with various stages of intimal thickening and plaque formation. The interactions between m6A-modified miR-494-3p mimics, TJP1 and PECAM1, were investigated in vitro using primary human (brain) endothelial cells. Increased m6A expression was observed in the luminal lining of atherosclerosis-affected VAs, accompanied by reduced TJP1 and PECAM1, but not VE-cadherin, expression. Colocalization of m6A and miR-494-3p in the luminal lining of VA plaques was confirmed, indicating m6A methylation of miR-494-3p in intracranial atherosclerosis. Moreover, site-specific m6A-modification of miR-494-3p led to repression specifically of TJP1 protein expression at cell-cell junctions of brain microvascular endothelial cells, while unmodified miR-494-3p showed no effect. This study highlights increasing m6A levels during intracranial atherogenesis. Increases in m6A-miR-494-3p contribute to the observed decreased TJP1 expression in endothelial cell-cell junctions. This is likely to have a negative effect on endothelial integrity and may thus accelerate intracranial atherosclerosis progression.

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