一个MIG-15/JNK-1丝裂原活化蛋白激酶级联在突触形成和学习过程中对抗RPM-1信号。

A MIG-15/JNK-1 MAP kinase cascade opposes RPM-1 signaling in synapse formation and learning.

作者信息

Crawley Oliver, Giles Andrew C, Desbois Muriel, Kashyap Sudhanva, Birnbaum Rayna, Grill Brock

机构信息

Department of Neuroscience, The Scripps Research Institute, Scripps Florida, Jupiter, Florida, United States of America.

Harriet L. Wilkes Honors College, Florida Atlantic University, Jupiter, FL, United States of America.

出版信息

PLoS Genet. 2017 Dec 11;13(12):e1007095. doi: 10.1371/journal.pgen.1007095. eCollection 2017 Dec.

DOI:10.1371/journal.pgen.1007095

PMID:29228003

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5754208/

Abstract

The Pam/Highwire/RPM-1 (PHR) proteins are conserved intracellular signaling hubs that regulate synapse formation and axon termination. The C. elegans PHR protein, called RPM-1, acts as a ubiquitin ligase to inhibit the DLK-1 and MLK-1 MAP kinase pathways. We have identified several kinases that are likely to form a new MAP kinase pathway that suppresses synapse formation defects, but not axon termination defects, in the mechanosensory neurons of rpm-1 mutants. This pathway includes: MIG-15 (MAP4K), NSY-1 (MAP3K), JKK-1 (MAP2K) and JNK-1 (MAPK). Transgenic overexpression of kinases in the MIG-15/JNK-1 pathway is sufficient to impair synapse formation in wild-type animals. The MIG-15/JNK-1 pathway functions cell autonomously in the mechanosensory neurons, and these kinases localize to presynaptic terminals providing further evidence of a role in synapse development. Loss of MIG-15/JNK-1 signaling also suppresses defects in habituation to repeated mechanical stimuli in rpm-1 mutants, a behavioral deficit that is likely to arise from impaired glutamatergic synapse formation. Interestingly, habituation results are consistent with the MIG-15/JNK-1 pathway functioning as a parallel opposing pathway to RPM-1. These findings indicate the MIG-15/JNK-1 pathway can restrict both glutamatergic synapse formation and short-term learning.

摘要

Pam/Highwire/RPM-1（PHR）蛋白是保守的细胞内信号枢纽，可调节突触形成和轴突终末。线虫的PHR蛋白RPM-1作为一种泛素连接酶，抑制DLK-1和MLK-1丝裂原活化蛋白激酶（MAP激酶）信号通路。我们已经鉴定出几种激酶，它们可能形成一条新的MAP激酶信号通路，该通路可抑制rpm-1突变体机械感觉神经元中的突触形成缺陷，但不抑制轴突终末缺陷。这条信号通路包括：MIG-15（MAP4K）、NSY-1（MAP3K）、JKK-1（MAP2K）和JNK-1（MAPK）。在MIG-15/JNK-1信号通路中转基因过表达激酶足以损害野生型动物的突触形成。MIG-15/JNK-1信号通路在机械感觉神经元中自主发挥作用，并且这些激酶定位于突触前终末，这为其在突触发育中的作用提供了进一步的证据。MIG-15/JNK-1信号缺失也可抑制rpm-1突变体对重复机械刺激的习惯化缺陷，这种行为缺陷可能是由于谷氨酸能突触形成受损所致。有趣的是，习惯化结果与MIG-15/JNK-1信号通路作为与RPM-1相对的平行信号通路发挥作用一致。这些发现表明，MIG-15/JNK-1信号通路可限制谷氨酸能突触形成和短期学习。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e17/5754208/ab8f0ee202fc/pgen.1007095.g001.jpg

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一个MIG-15/JNK-1丝裂原活化蛋白激酶级联在突触形成和学习过程中对抗RPM-1信号。

A MIG-15/JNK-1 MAP kinase cascade opposes RPM-1 signaling in synapse formation and learning.

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