Irisin-Associated Neuroprotective and Rehabilitative Strategies for Stroke.

IF 3.9 4区医学 Q2 NEUROSCIENCES NeuroMolecular Medicine Pub Date : 2022-06-01 Epub Date: 2021-07-03 DOI:10.1007/s12017-021-08666-y

Melissa Ann Huberman, Nathan D d'Adesky, Qismat Bahar Niazi, Miguel A Perez-Pinzon, Helen M Bramlett, Ami P Raval

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Abstract

Irisin, a newly discovered protein hormone that is secreted in response to low frequency whole body vibration (LFV), could be a promising post-stroke rehabilitation therapy for patients who are frail and cannot comply with regular rehabilitation therapy. Irisin is generated from a membrane-bound precursor protein fibronectin type III domain-containing protein 5 (FNDC5). Aside from being highly expressed in muscle, FNDC5 is highly expressed in the brain. The cleaved form of FNDC5 was found in the cerebrospinal fluid as well as in various regions of the brain. Numerous studies suggest that irisin plays a key role in brain metabolism and inflammation regulation. Both the metabolism and inflammation govern stroke outcome, and in a published study, we demonstrated that LFV therapy following middle cerebral artery occlusion significantly reduced innate immune response, improved motor function and infarct volume in reproductively senescent female rats. The observed effect of LFV therapy could be working via irisin, therefore, the current review focuses to understand various aspects of irisin including its mechanism of action on the brain.

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鸢尾素相关中风的神经保护和康复策略。

鸢尾素是一种新发现的蛋白质激素，它是在低频全身振动(LFV)反应中分泌的，对于身体虚弱且无法接受常规康复治疗的中风后患者来说，可能是一种很有前途的康复治疗方法。鸢尾素是由膜结合前体蛋白纤维连接蛋白III型结构域蛋白5 (FNDC5)产生的。除了在肌肉中高表达外，FNDC5在大脑中也高表达。在脑脊液和大脑的各个区域中发现了FNDC5的裂解形式。大量研究表明，鸢尾素在脑代谢和炎症调节中起着关键作用。代谢和炎症都控制着中风的结果，在一项已发表的研究中，我们证明大脑中动脉闭塞后的LFV治疗显著降低了生殖衰老雌性大鼠的先天免疫反应，改善了运动功能和梗死体积。观察到的LFV治疗效果可能是通过鸢尾素起作用的，因此，目前的综述重点是了解鸢尾素的各个方面，包括其对大脑的作用机制。

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来源期刊

NeuroMolecular Medicine 医学-神经科学

CiteScore

7.10

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： NeuroMolecular Medicine publishes cutting-edge original research articles and critical reviews on the molecular and biochemical basis of neurological disorders. Studies range from genetic analyses of human populations to animal and cell culture models of neurological disorders. Emerging findings concerning the identification of genetic aberrancies and their pathogenic mechanisms at the molecular and cellular levels will be included. Also covered are experimental analyses of molecular cascades involved in the development and adult plasticity of the nervous system, in neurological dysfunction, and in neuronal degeneration and repair. NeuroMolecular Medicine encompasses basic research in the fields of molecular genetics, signal transduction, plasticity, and cell death. The information published in NEMM will provide a window into the future of molecular medicine for the nervous system.