神经元中含有VASE的NCAM的表达可以解释它们在细胞基质中对NCAM的神经突生长反应的发育性丧失。
Expression of NCAM containing VASE in neurons can account for a developmental loss in their neurite outgrowth response to NCAM in a cellular substratum.
作者信息
Saffell J L, Walsh F S, Doherty P
机构信息
Department of Experimental Pathology, UMDS, Guy's Hospital, London, United Kingdom.
出版信息
J Cell Biol. 1994 Apr;125(2):427-36. doi: 10.1083/jcb.125.2.427.
Abstract
Binding of the neural cell adhesion molecule (NCAM) in neurons to NCAM on non-neuronal cells can stimulate axonal growth. A developmentally regulated loss of this response is associated with the insertion of 10 amino acids (called VASE) into the fourth Ig domain in up to 50% of the NCAM receptors in neurons. In the present study we have transfected PC12 cells with the major neuronal isoforms of human NCAM and tested cells expressing these isoforms for their ability to respond to NCAM in a cellular substratum. Whereas both the 140- and 180-kD isoforms of NCAM can act as functional receptors for neurite outgrowth, the presence of the VASE sequence in a minority of the receptors specifically inhibited this response. A synthetic peptide containing the VASE sequence inhibits neurite outgrowth from PC12 cells and primary neurons stimulated by NCAM. The same peptide has no effect on integrin dependent neurite outgrowth or neurite outgrowth stimulated by N-cadherin or L1. We discuss the possibility that the VASE peptide inhibits the NCAM response by preventing NCAM from binding to the FGF receptor in the plasma membrane.
摘要
神经元中的神经细胞黏附分子(NCAM)与非神经元细胞上的NCAM结合可刺激轴突生长。这种反应在发育过程中受到调控的丧失与多达50%的神经元NCAM受体的第四个免疫球蛋白(Ig)结构域中插入10个氨基酸(称为VASE)有关。在本研究中,我们用人类NCAM的主要神经元异构体转染了PC12细胞,并测试了表达这些异构体的细胞在细胞基质中对NCAM作出反应的能力。虽然NCAM的140-kD和180-kD异构体都可以作为神经突生长的功能性受体,但少数受体中VASE序列的存在特异性地抑制了这种反应。含有VASE序列的合成肽可抑制NCAM刺激的PC12细胞和原代神经元的神经突生长。相同的肽对整合素依赖性神经突生长或N-钙黏蛋白或L1刺激的神经突生长没有影响。我们讨论了VASE肽通过阻止NCAM与质膜中的成纤维细胞生长因子(FGF)受体结合来抑制NCAM反应的可能性。
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Axon growth is enhanced by NCAM lacking the VASE exon when expressed in either the growth substrate or the growing axon.当在生长底物或生长轴突中表达时,缺乏VASE外显子的神经细胞黏附分子(NCAM)可增强轴突生长。
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