| Literature DB >> 35217983 |
Jie Li1, Ning Wang1, Huan Nie1, Shan Wang1, Tongtong Jiang1, Xuehan Ma1, Wenjuan Liu2, Kuo Tian3.
Abstract
Much efforts have been made to probe the mechanism underlying ischemic stroke (IS). This study was proposed to uncover the role of long non-coding RNA rhabdomyosarcoma 2 related transcript (RMST) in IS through microRNA-221-3p (miR-221-3p)/phosphoinositide-3-kinase regulatory subunit 1 (PIK3R1)/transforming growth factor-β (TGF-β) axis. Neurological behavioral function, pathological changes in brain tissue, oxidative stress, and inflammation responses in middle cerebral artery occlusion (MCAO) mice were tested. RMST, miR-221-3p, PIK3R1, and TGF-β signaling-related protein expression in brain tissues of MCAO mice were detected. RMST and PIK3R1 were elevated, miR-221-3p was downregulated, and TGF-β pathway was activated in mice after MCAO. Restored miR-221-3p or depleted RMST improved neurological behavioral functions, relieved pathological injury in brain tissue, and repressed oxidative stress and inflammation in mice after MCAO. Depleted PIK3R1 or restored miR-221-3p offsets the negative effects of overexpressed RMST on mice with MCAO. The present work highlights that RMST augments IS through reducing miR-221-3p-mediated regulation of PIK3R1 and activating TGF-β pathway.Entities:
Keywords: Ischemic stroke; Long non-coding RNA rhabdomyosarcoma 2 related transcript; MicroRNA-221-3p; Neurological function; Phosphoinositide-3-kinase regulatory subunit 1; Transforming growth factor signaling
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Year: 2022 PMID: 35217983 DOI: 10.1007/s12035-021-02632-2
Source DB: PubMed Journal: Mol Neurobiol ISSN: 0893-7648 Impact factor: 5.682