突触结合蛋白IV不会改变哺乳动物中枢神经系统神经元中的兴奋性快速突触传递或融合孔动力学。
Synaptotagmin IV does not alter excitatory fast synaptic transmission or fusion pore kinetics in mammalian CNS neurons.
作者信息
Ting Jonathan T, Kelley Brooke G, Sullivan Jane M
机构信息
Department of Physiology and Biophysics, University of Washington School of Medicine, Seattle, Washington 98195, USA.
出版信息
J Neurosci. 2006 Jan 11;26(2):372-80. doi: 10.1523/JNEUROSCI.3997-05.2006.
Abstract
Synaptotagmin IV (Syt IV) is a brain-specific isoform of the synaptotagmin family, the levels of which are strongly elevated after seizure activity. The dominant hypothesis of Syt IV function states that Syt IV upregulation is a neuroprotective mechanism for reducing neurotransmitter release. To test this hypothesis in mammalian CNS synapses, Syt IV was overexpressed in cultured mouse hippocampal neurons, and acute effects on fast excitatory neurotransmission were assessed. We found neurotransmission unaltered with respect to basal release probability, Ca2+ dependence of release, short-term plasticity, and fusion pore kinetics. In contrast, expression of a mutant Syt I with diminished Ca2+ affinity (R233Q) reduced release probability and altered the Ca2+ dependence of release, thus demonstrating the sensitivity of the system to changes in neurotransmission resulting from changes to the Ca2+ sensor. Together, these data refute the dominant model that Syt IV functions as an inhibitor of neurotransmitter release in mammalian neurons.
摘要
突触结合蛋白IV(Syt IV)是突触结合蛋白家族中一种大脑特异性亚型,其水平在癫痫活动后会显著升高。关于Syt IV功能的主流假说是,Syt IV的上调是一种减少神经递质释放的神经保护机制。为了在哺乳动物中枢神经系统突触中验证这一假说,在培养的小鼠海马神经元中过表达Syt IV,并评估其对快速兴奋性神经传递的急性影响。我们发现,在基础释放概率、释放的Ca2+依赖性、短期可塑性和融合孔动力学方面,神经传递没有改变。相比之下,具有降低的Ca2+亲和力的突变型Syt I(R233Q)的表达降低了释放概率,并改变了释放的Ca2+依赖性,从而证明了该系统对由Ca2+传感器变化引起的神经传递变化的敏感性。总之,这些数据驳斥了Syt IV在哺乳动物神经元中作为神经递质释放抑制剂的主流模型。
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