Actions of NCX, PMCA and SERCA on Short-Term Facilitation and Maintenance of Transmission in Nerve Terminals

The Open Physiology Journal Pub Date : 2010-09-08 DOI:10.2174/1874360901003010037

Mohati Desai-Shah, R. Cooper

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引用次数: 5

Abstract

Residual Ca 2+ can accumulate in the nerve terminal during repetitive stimulation; thus, the basis for short-term facilitation (STF). The plasmalemmal Na + /Ca 2+ exchanger (NCX), the Ca 2+ -ATPase (PMCA) and the sarcoplasmic/endoplasmic reticulum Ca 2+ -ATPase (SERCA) on the endoplasmic reticulum are three important Ca 2+ regulatory processes in controlling (Ca 2+ )i. The role of these (Ca 2+ )i regulators in the development and maintenance of STF was addressed at the neuromuscular junction. When the NCX is compromised by reduced (Na + )o, the EPSP amplitudes decrease, but with KB-R7943 (a reverse blocker of NCX) the amplitude increases. Compromising the PMCA with pH 8.8 produces an increase in EPSP amplitudes, but treatments with carboxyeosin (a blocker of PMCA) produced mixed results. Blocking the SERCA increases EPSP amplitudes. Facilitation was only slighted altered in some conditions with these manipulations. The results support the view that release is not saturated during a plateau phase of STF since the terminal is able to reach a new plateau with higher stimulation frequency or an altered (Ca 2+ )i. Multiple approaches in compromising the NCX and PMCA are presented. These findings are significant because there is a rapid alteration in transmission when compromising Ca 2+ extrusion mechanisms during STF.

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NCX、PMCA和SERCA对神经末梢神经传递短期促进和维持的作用

重复刺激时残余ca2 +可在神经末梢积聚;因此，短期便利(STF)的基础。内质网Na + / ca2 +交换器(NCX)、ca2 + - atp酶(PMCA)和肌浆/内质网ca2 + - atp酶(SERCA)是控制ca2 + i的三个重要ca2 +调控过程。这些(ca2 +)i调节因子在STF的发展和维持中的作用在神经肌肉连接处得到了解决。当NCX被还原性(Na +)o破坏时，EPSP振幅降低，而KB-R7943 (NCX的反向阻断剂)的振幅增加。pH值为8.8的PMCA会增加EPSP的振幅，但用羧酸苷(PMCA的阻滞剂)处理会产生不同的结果。阻断SERCA增加EPSP振幅。在某些情况下，这些操作只会轻微改变促进作用。结果支持了这样的观点，即在STF的平台阶段释放不饱和，因为终端能够在更高的刺激频率或(ca2 +)i改变的情况下达到新的平台。提出了破坏NCX和PMCA的多种方法。这些发现意义重大，因为在STF期间，当ca2 +挤压机制受损时，传输会发生快速改变。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Open Physiology Journal

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