Literature DB >> 19816407

Synapse formation regulated by protein tyrosine phosphatase receptor T through interaction with cell adhesion molecules and Fyn.

So-Hee Lim1, Seok-Kyu Kwon, Myung Kyu Lee, Jeonghee Moon, Dae Gwin Jeong, Eunha Park, Seung Jun Kim, Byung Chul Park, Sang Chul Lee, Seong-Eon Ryu, Dae-Yeul Yu, Bong Hyun Chung, Eunjoon Kim, Pyung-Keun Myung, Jae-Ran Lee.   

Abstract

The receptor-type protein tyrosine phosphatases (RPTPs) have been linked to signal transduction, cell adhesion, and neurite extension. PTPRT/RPTPrho is exclusively expressed in the central nervous system and regulates synapse formation by interacting with cell adhesion molecules and Fyn protein tyrosine kinase. Overexpression of PTPRT in cultured neurons increased the number of excitatory and inhibitory synapses by recruiting neuroligins that interact with PTPRT through their ecto-domains. In contrast, knockdown of PTPRT inhibited synapse formation and withered dendrites. Incubation of cultured neurons with recombinant proteins containing the extracellular region of PTPRT reduced the number of synapses by inhibiting the interaction between ecto-domains. Synapse formation by PTPRT was inhibited by phosphorylation of tyrosine 912 within the membrane-proximal catalytic domain of PTPRT by Fyn. This tyrosine phosphorylation reduced phosphatase activity of PTPRT and reinforced homophilic interactions of PTPRT, thereby preventing the heterophilic interaction between PTPRT and neuroligins. These results suggest that brain-specific PTPRT regulates synapse formation through interaction with cell adhesion molecules, and this function and the phosphatase activity are attenuated through tyrosine phosphorylation by the synaptic tyrosine kinase Fyn.

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Year:  2009        PMID: 19816407      PMCID: PMC2782100          DOI: 10.1038/emboj.2009.289

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  55 in total

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  31 in total

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Review 7.  A matter of balance: role of neurexin and neuroligin at the synapse.

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8.  The neuroligins and their ligands: from structure to function at the synapse.

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