4.8 Article

Subunit composition, molecular environment, and activation of native TRPC channels encoded by their interactomes

期刊

NEURON
卷 110, 期 24, 页码 4162-+

出版社

CELL PRESS
DOI: 10.1016/j.neuron.2022.09.029

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资金

  1. Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) [TRR 152, 239283807, SFB 894, 157660137, SFB 1381, 403222702, FA 332/15-1, FA 332/16-1]
  2. Saar-land University

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This study reveals the macro-molecular complex structure of TRPC channels in the mammalian brain and elucidates their subunit composition and activation mechanism.
In the mammalian brain TRPC channels, a family of Ca2+-permeable cation channels, are involved in a variety of processes from neuronal growth and synapse formation to transmitter release, synaptic transmission and plasticity. The molecular appearance and operation of native TRPC channels, however, remained poorly understood. Here, we used high-resolution proteomics to show that TRPC channels in the rodent brain are macro-molecular complexes of more than 1 MDa in size that result from the co-assembly of the tetrameric channel core with an ensemble of interacting proteins (interactome). The core(s) of TRPC1-, C4-, and C5 -containing channels are mostly heteromers with defined stoichiometries for each subtype, whereas TRPC3, C6, and C7 preferentially form homomers. In addition, TRPC1/C4/C5 channels may co-assemble with the metabotropic glutamate receptor mGluR1, thus guaranteeing both specificity and reliability of channel activation via the phospholipase-Ca2+ pathway. Our results unveil the subunit composition of native TRPC channels and resolve the molecular details underlying their activation.

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