磷脂酸在海兔神经元中新型蛋白激酶C Apl II转位中的生理作用。

Physiological role for phosphatidic acid in the translocation of the novel protein kinase C Apl II in Aplysia neurons.

作者信息

Farah Carole A, Nagakura Ikue, Weatherill Daniel, Fan Xiaotang, Sossin Wayne S

机构信息

Department of Neurology and Neurosurgery, McGill University, Montreal Neurological Institute, Montreal, Quebec H3A 2B4, Canada.

出版信息

Mol Cell Biol. 2008 Aug;28(15):4719-33. doi: 10.1128/MCB.00178-08. Epub 2008 May 27.

DOI:10.1128/MCB.00178-08

PMID:18505819

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2493367/

Abstract

In Aplysia californica, the serotonin-mediated translocation of protein kinase C (PKC) Apl II to neuronal membranes is important for synaptic plasticity. The orthologue of PKC Apl II, PKCepsilon, has been reported to require phosphatidic acid (PA) in conjunction with diacylglycerol (DAG) for translocation. We find that PKC Apl II can be synergistically translocated to membranes by the combination of DAG and PA. We identify a mutation in the C1b domain (arginine 273 to histidine; PKC Apl II-R273H) that removes the effects of exogenous PA. In Aplysia neurons, the inhibition of endogenous PA production by 1-butanol inhibited the physiological translocation of PKC Apl II by serotonin in the cell body and at the synapse but not the translocation of PKC Apl II-R273H. The translocation of PKC Apl II-R273H in the absence of PA was explained by two additional effects of this mutation: (i) the mutation removed C2 domain-mediated inhibition, and (ii) the mutation decreased the concentration of DAG required for PKC Apl II translocation. We present a model in which, under physiological conditions, PA is important to activate the novel PKC Apl II both by synergizing with DAG and removing C2 domain-mediated inhibition.

摘要

在加州海兔中，血清素介导的蛋白激酶C（PKC）Apl II向神经元膜的转位对于突触可塑性很重要。据报道，PKC Apl II的同源物PKCepsilon转位需要磷脂酸（PA）与二酰基甘油（DAG）协同作用。我们发现PKC Apl II可通过DAG和PA的组合协同转位至膜上。我们在C1b结构域中鉴定出一个突变（精氨酸273突变为组氨酸；PKC Apl II-R273H），该突变消除了外源性PA的作用。在海兔神经元中，1-丁醇对内源性PA产生的抑制作用抑制了血清素在细胞体和突触处诱导的PKC Apl II的生理性转位，但对PKC Apl II-R273H的转位没有影响。在没有PA的情况下PKC Apl II-R273H的转位可由该突变的另外两种效应来解释：（i）该突变消除了C2结构域介导的抑制作用；（ii）该突变降低了PKC Apl II转位所需的DAG浓度。我们提出了一个模型，在生理条件下，PA通过与DAG协同作用并消除C2结构域介导的抑制作用来激活新型PKC Apl II，这一点很重要。

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