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GABA signaling triggered by TMC-1/Tmc delays neuronal aging by inhibiting the PKC pathway in <i>C. elegans</i>

Jieyu Wu, Liuyang Wang, John F. Ervin, Shih‐Hsiu J. Wang, Erik J. Soderblom, Dennis C. Ko, Dong Yan

2022Science Advances17 citationsDOIOpen Access PDF

Abstract

Aging causes functional decline and degeneration of neurons and is a major risk factor of neurodegenerative diseases. To investigate the molecular mechanisms underlying neuronal aging, we developed a new pipeline for neuronal proteomic profiling in young and aged animals. While the overall translational machinery is down-regulated, certain proteins increase expressions upon aging. Among these aging-up-regulated proteins, the conserved channel protein TMC-1/Tmc has an anti-aging function in all neurons tested, and the neuroprotective function of TMC-1 occurs by regulating GABA signaling. Moreover, our results show that metabotropic GABA receptors and G protein GOA-1/Goα are required for the anti-neuronal aging functions of TMC-1 and GABA, and the activation of GABA receptors prevents neuronal aging by inhibiting the PLCβ-PKC pathway. Last, we show that the TMC-1-GABA-PKC signaling axis suppresses neuronal functional decline caused by a pathogenic form of human Tau protein. Together, our findings reveal the neuroprotective function of the TMC-1-GABA-PKC signaling axis in aging and disease conditions.

Topics & Concepts

Protein kinase CNeuroscienceSignal transductionCell biologyBiologyCaenorhabditis elegansChemistryBiochemistryGeneGenetics, Aging, and Longevity in Model OrganismsCircadian rhythm and melatoninTryptophan and brain disorders