成簇原钙黏蛋白的结合特异性是如何针对神经元的自我/非自我识别进行调节的。

How clustered protocadherin binding specificity is tuned for neuronal self-/nonself-recognition.

作者信息

Goodman Kerry Marie, Katsamba Phinikoula S, Rubinstein Rotem, Ahlsén Göran, Bahna Fabiana, Mannepalli Seetha, Dan Hanbin, Sampogna Rosemary V, Shapiro Lawrence, Honig Barry

机构信息

Zuckerman Mind, Brain and Behavior Institute, Columbia University, New York, United States.

School of Neurobiology, Biochemistry and Biophysics, Tel Aviv University, Tel Aviv, Israel.

出版信息

Elife. 2022 Mar 7;11:e72416. doi: 10.7554/eLife.72416.

DOI:10.7554/eLife.72416

PMID:35253643

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8901172/

Abstract

The stochastic expression of fewer than 60 clustered protocadherin (cPcdh) isoforms provides diverse identities to individual vertebrate neurons and a molecular basis for self-/nonself-discrimination. cPcdhs form chains mediated by alternating and interactions between apposed membranes, which has been suggested to signal self-recognition. Such a mechanism requires that cPcdh dimers form promiscuously to generate diverse recognition units, and that interactions have precise specificity so that isoform mismatches terminate chain growth. However, the extent to which cPcdh interactions fulfill these requirements has not been definitively demonstrated. Here, we report biophysical experiments showing that cPcdh interactions are promiscuous, but with preferences favoring formation of heterologous dimers. homophilic interactions are remarkably precise, with no evidence for heterophilic interactions between different isoforms. A new C-type cPcdh crystal structure and mutagenesis data help to explain these observations. Overall, the interaction characteristics we report for cPcdhs help explain their function in neuronal self-/nonself-discrimination.

摘要

少于60种成簇原钙黏蛋白（cPcdh）同种型的随机表达为单个脊椎动物神经元提供了多样的身份标识，并为自我/非自我识别提供了分子基础。cPcdh形成由相邻膜之间交替的α和β相互作用介导的链，这被认为是自我识别的信号。这样一种机制要求cPcdhα二聚体随机形成以产生多样的识别单元，并且β相互作用具有精确的特异性，从而使同种型错配终止链的生长。然而，cPcdh相互作用满足这些要求的程度尚未得到确切证明。在此，我们报告生物物理实验，结果表明cPcdhα相互作用是随机的，但倾向于形成异源α二聚体。α同源相互作用非常精确，没有证据表明不同同种型之间存在异源相互作用。一种新的C型cPcdh晶体结构和诱变数据有助于解释这些观察结果。总体而言，我们报告的cPcdh的相互作用特征有助于解释它们在神经元自我/非自我识别中的功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e9e4/8901172/3178ee3d6dc4/elife-72416-fig1.jpg

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成簇原钙黏蛋白的结合特异性是如何针对神经元的自我/非自我识别进行调节的。

How clustered protocadherin binding specificity is tuned for neuronal self-/nonself-recognition.

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