Abstract
Endosome maturation requires lumen acidification. Is progressive lumen acidification sensed by cytosolic-side molecules driving maturation? We show here that proton efflux through the endosomal Na⁺/H⁺ Exchanger (NHE6) activates the late endosome master regulator Rab7. Importantly, NHE6 is mutated in the childhood neurologic disorder Christianson Syndrome. We demonstrate that NHE6 interacts with the Rab7 GTPase-activating protein (GAP) TBC1D5 in a complex with Rab7 on the late endosome. This interaction and proton efflux are both required for Rab7 activation. TBC1D5 is potently inactivated with decreasing pH. A conserved histidine in the TBC1D5 GAP domain mediates pH-dependence. Furthermore, we show that neurons from mice engineered with a selective defect in NHE6 proton efflux exhibit blocked endosome maturation and disrupted Rab7 GTP-GDP cycling. In addition, knock-down of TBC1D5, thereby reducing Rab7 GAP activity, in NHE6 mutant neurons rescues Rab7 GTP-GDP cycling and endosome maturation. Finally, we present a biophysical model of proton signaling through acidic pH microdomains within the NHE6-TBC1D5-Rab7 protein complex upon endosome acidification. In conclusion, our studies provide evidence supporting a mechanism involving “inside-out” proton signaling, whereby lumen acidification drives endosome maturation through pH-dependent Rab GTPase cycling. Failure in this mechanism may have broad impact in neurodegenerative disease.
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The authors thank Dr. Diane Barber at the University of California, San Francisco, and Dr. Nicholas Fawzi at Brown University for feedback and insightful discussion.
Funding
This research was supported by funding for Y.L. (K99AG076868), E.M.M. (R01NS121618, R01AG087455, R01NS113141, R01MH137004), and J.M. (R35GM153388).
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Lee, Y., Ouyang, Q., Ma, L. et al. Endosome maturation is orchestrated by inside-out proton signaling through a Na+/H+ exchanger and pH-dependent Rab GTPase cycling. Nat Commun (2026). https://doi.org/10.1038/s41467-026-72568-5
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DOI: https://doi.org/10.1038/s41467-026-72568-5
