trkB.T1 的基因缺失可增强神经肌肉功能。
Genetic deletion of trkB.T1 increases neuromuscular function.
机构信息
University of Maryland Baltimore School of Nursing, Baltimore, Maryland 21201, USA.
出版信息
Am J Physiol Cell Physiol. 2012 Jan 1;302(1):C141-53. doi: 10.1152/ajpcell.00469.2010. Epub 2011 Oct 5.
Abstract
Neurotrophin-dependent activation of the tyrosine kinase receptor trkB.FL modulates neuromuscular synapse maintenance and function; however, it is unclear what role the alternative splice variant, truncated trkB (trkB.T1), may have in the peripheral neuromuscular axis. We examined this question in trkB.T1 null mice and demonstrate that in vivo neuromuscular performance and nerve-evoked muscle tension are significantly increased. In vitro assays indicated that the gain-in-function in trkB.T1(-/-) animals resulted specifically from an increased muscle contractility, and increased electrically evoked calcium release. In the trkB.T1 null muscle, we identified an increase in Akt activation in resting muscle as well as a significant increase in trkB.FL and Akt activation in response to contractile activity. On the basis of these findings, we conclude that the trkB signaling pathway might represent a novel target for intervention across diseases characterized by deficits in neuromuscular function.
摘要
神经营养因子依赖的酪氨酸激酶受体 trkB.FL 的激活调节神经肌肉突触的维持和功能;然而,截断的 trkB(trkB.T1)剪接变体在周围神经肌肉轴可能起什么作用尚不清楚。我们在 trkB.T1 缺失小鼠中研究了这个问题,并证明体内神经肌肉性能和神经诱发的肌肉张力显著增加。体外测定表明,trkB.T1(-/-)动物的功能增益是特异性地来自于肌肉收缩性增加和电诱发的钙释放增加。在 trkB.T1 缺失的肌肉中,我们发现静息肌肉中的 Akt 激活增加,以及对收缩活性的反应中 trkB.FL 和 Akt 激活的显著增加。基于这些发现,我们得出结论,trkB 信号通路可能代表以神经肌肉功能缺陷为特征的各种疾病的干预的新靶点。
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