SK2通道是哺乳动物外毛细胞传出突触功能和长期存活所必需的。
SK2 channels are required for function and long-term survival of efferent synapses on mammalian outer hair cells.
作者信息
Murthy Vidya, Maison Stéphane F, Taranda Julián, Haque Nadeem, Bond Chris T, Elgoyhen A Belén, Adelman John P, Liberman M Charles, Vetter Douglas E
机构信息
Dept. of Neuroscience, Tufts Univ. School of Medicine, 136 Harrison Ave. Boston, MA 02111, USA.
出版信息
Mol Cell Neurosci. 2009 Jan;40(1):39-49. doi: 10.1016/j.mcn.2008.08.011. Epub 2008 Sep 18.
Abstract
Cochlear hair cells use SK2 currents to shape responses to cholinergic efferent feedback from the brain. Using SK2(-/-) mice, we demonstrate that, in addition to their previously defined role in modulating hair cell membrane potentials, SK2 channels are necessary for long-term survival of olivocochlear fibers and synapses. Loss of the SK2 gene also results in loss of electrically driven olivocochlear effects in vivo, and down regulation of ryanodine receptors involved in calcium-induced calcium release, the main inducer of nAChR evoked SK2 activity. Generation of double-null mice lacking both the alpha10 nAChR gene, loss of which results in hypertrophied olivocochlear terminals, and the SK2 gene, recapitulates the SK2(-/-) synaptic phenotype and gene expression, and also leads to down regulation of alpha9 nAChR gene expression. The data suggest a hierarchy of activity necessary to maintain early olivocochlear synapses at their targets, with SK2 serving an epistatic, upstream, role to the nAChRs.
摘要
耳蜗毛细胞利用SK2电流来塑造对来自大脑的胆碱能传出反馈的反应。利用SK2基因敲除小鼠,我们证明,除了其先前确定的调节毛细胞膜电位的作用外,SK2通道对于橄榄耳蜗纤维和突触的长期存活是必需的。SK2基因的缺失还导致体内电驱动的橄榄耳蜗效应丧失,以及参与钙诱导钙释放的兰尼碱受体下调,钙诱导钙释放是nAChR诱发SK2活性的主要诱导因素。同时缺乏α10 nAChR基因(其缺失会导致橄榄耳蜗终末肥大)和SK2基因的双敲除小鼠,重现了SK2基因敲除小鼠的突触表型和基因表达,并且还导致α9 nAChR基因表达下调。数据表明,维持早期橄榄耳蜗突触在其靶点处需要一定的活动层级,其中SK2对nAChRs起着上位的、上游的作用。
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