Literature DB >> 23665919

Attenuation of insulin signalling contributes to FSN-1-mediated regulation of synapse development.

Wesley L Hung1, Christine Hwang, Shangbang Gao, Edward H Liao, Jyothsna Chitturi, Ying Wang, Hang Li, Christian Stigloher, Jean-Louis Bessereau, Mei Zhen.   

Abstract

A neuronal F-box protein FSN-1 regulates Caenorhabditis elegans neuromuscular junction development by negatively regulating DLK-mediated MAPK signalling. In the present study, we show that attenuation of insulin/IGF signalling also contributes to FSN-1-dependent synaptic development and function. The aberrant synapse morphology and synaptic transmission in fsn-1 mutants are partially and specifically rescued by reducing insulin/IGF-signalling activity in postsynaptic muscles, as well as by reducing the activity of EGL-3, a prohormone convertase that processes agonistic insulin/IGF ligands INS-4 and INS-6, in neurons. FSN-1 interacts with, and potentiates the ubiquitination of EGL-3 in vitro, and reduces the EGL-3 level in vivo. We propose that FSN-1 may negatively regulate insulin/IGF signalling, in part, through EGL-3-dependent insulin-like ligand processing.

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Year:  2013        PMID: 23665919      PMCID: PMC3680742          DOI: 10.1038/emboj.2013.91

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


  80 in total

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  12 in total

1.  Pheromones Modulate Learning by Regulating the Balanced Signals of Two Insulin-like Peptides.

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3.  Neuropeptide signaling remodels chemosensory circuit composition in Caenorhabditis elegans.

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4.  A Caenorhabditis elegans developmental decision requires insulin signaling-mediated neuron-intestine communication.

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Review 5.  The ubiquitin proteasome system in Caenorhabditis elegans and its regulation.

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Review 6.  Divergent and convergent roles for insulin-like peptides in the worm, fly and mammalian nervous systems.

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7.  From genes to circuits and behaviors: Neuropeptides expand the coding potential of the nervous system.

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8.  Identification of potential microRNAs and KEGG pathways in denervation muscle atrophy based on meta-analysis.

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9.  Oxygen sensing neurons and neuropeptides regulate survival after anoxia in developing C. elegans.

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10.  The Nesprin family member ANC-1 regulates synapse formation and axon termination by functioning in a pathway with RPM-1 and β-Catenin.

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