Life (Aug 2024)

TMEM9B Regulates Endosomal ClC-3 and ClC-4 Transporters

  • Margherita Festa,
  • Maria Antonietta Coppola,
  • Elena Angeli,
  • Abraham Tettey-Matey,
  • Alice Giusto,
  • Irene Mazza,
  • Elena Gatta,
  • Raffaella Barbieri,
  • Alessandra Picollo,
  • Paola Gavazzo,
  • Michael Pusch,
  • Cristiana Picco,
  • Francesca Sbrana

DOI
https://doi.org/10.3390/life14081034
Journal volume & issue
Vol. 14, no. 8
p. 1034

Abstract

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The nine-member CLC gene family of Cl− chloride-transporting membrane proteins is divided into plasma membrane-localized Cl− channels and endo-/lysosomal Cl−/H+ antiporters. Accessory proteins have been identified for ClC-K and ClC-2 channels and for the lysosomal ClC-7, but not the other CLCs. Here, we identified TMEM9 Domain Family Member B (TMEM9B), a single-span type I transmembrane protein of unknown function, to strongly interact with the neuronal endosomal ClC-3 and ClC-4 transporters. Co-expression of TMEM9B with ClC-3 or ClC-4 dramatically reduced transporter activity in Xenopus oocytes and transfected HEK cells. For ClC-3, TMEM9B also induced a slow component in the kinetics of the activation time course, suggesting direct interaction. Currents mediated by ClC-7 were hardly affected by TMEM9B, and ClC-1 currents were only slightly reduced, demonstrating specific interaction with ClC-3 and ClC-4. We obtained strong evidence for direct interaction by detecting significant Förster Resonance Energy Transfer (FRET), exploiting fluorescence lifetime microscopy-based (FLIM-FRET) techniques between TMEM9B and ClC-3 and ClC-4, but hardly any FRET with ClC-1 or ClC-7. The discovery of TMEM9B as a novel interaction partner of ClC-3 and ClC-4 might have important implications for the physiological role of these transporters in neuronal endosomal homeostasis and for a better understanding of the pathological mechanisms in CLCN3- and CLCN4-related pathological conditions.

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