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活动阻断后神经肌肉接头处诱发和自发突触电流的延长是由胎儿乙酰胆碱受体上调引起的。

Prolongation of evoked and spontaneous synaptic currents at the neuromuscular junction after activity blockade is caused by the upregulation of fetal acetylcholine receptors.

作者信息

Wang Xueyong, Engisch Kathrin L, Teichert Russell W, Olivera Baldomero M, Pinter Martin J, Rich Mark M

机构信息

Department of Neuroscience, Cell Biology, and Physiology, Wright State University, Dayton, Ohio 45435, USA.

出版信息

J Neurosci. 2006 Aug 30;26(35):8983-7. doi: 10.1523/JNEUROSCI.2493-06.2006.

DOI:10.1523/JNEUROSCI.2493-06.2006
PMID:16943554
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6675328/
Abstract

It has been shown previously in a number of systems that after an extended block of activity, synaptic strength is increased. We found that an extended block of synaptic activity at the mouse neuromuscular junction, using a tetrodotoxin cuff in vivo, increased synaptic strength by prolonging the evoked endplate current (EPC) decay. Prolongation of EPC decay was accompanied by only modest prolongation of spontaneous miniature EPC (MEPC) decay. Prolongation of EPC decay was reversed when quantal content was lowered by reducing extracellular calcium. These findings suggested that the cause of EPC prolongation was presynaptic in origin. However, when we acutely inhibited fetal-type acetylcholine receptors (AChRs) using a novel peptide toxin (alphaA-conotoxin OIVA[K15N]), prolongation of both EPC and MEPC decay were reversed. We also blocked synaptic activity in a mutant strain of mice in which persistent muscle activity prevents upregulation of fetal-type AChRs. In these mice, there was no prolongation of EPC decay. We conclude that upregulation of fetal-type AChRs after blocking synaptic activity causes modest prolongation of MEPC decay that is accompanied by much greater prolongation of EPC decay. This might occur if acetylcholine escapes from endplates and binds to extrajunctional fetal-type AChRs only during large, evoked EPCs. Our study is the first to demonstrate a functional role for upregulation of extrajunctional AChRs.

摘要

先前在许多系统中已经表明,在长时间的活动阻断后,突触强度会增加。我们发现,在小鼠神经肌肉接头处使用河豚毒素袖带进行长时间的突触活动阻断,通过延长诱发终板电流(EPC)的衰减来增加突触强度。EPC衰减的延长仅伴随着自发微小EPC(MEPC)衰减的适度延长。当通过降低细胞外钙来降低量子含量时,EPC衰减的延长被逆转。这些发现表明EPC延长的原因起源于突触前。然而,当我们使用一种新型肽毒素(αA-芋螺毒素OIVA[K15N])急性抑制胎儿型乙酰胆碱受体(AChRs)时,EPC和MEPC衰减的延长都被逆转。我们还在一种突变小鼠品系中阻断了突触活动,在这种小鼠中持续的肌肉活动会阻止胎儿型AChRs的上调。在这些小鼠中,EPC衰减没有延长。我们得出结论,阻断突触活动后胎儿型AChRs的上调会导致MEPC衰减适度延长,并伴随着EPC衰减的更大延长。如果乙酰胆碱仅在大的诱发EPC期间从终板逸出并与接头外胎儿型AChRs结合,可能会发生这种情况。我们的研究首次证明了接头外AChRs上调的功能作用。