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EMBO J ; 39(9): e103358, 2020 05 04.
Article in English | MEDLINE | ID: mdl-32118314

ABSTRACT

CLC chloride/proton exchangers may support acidification of endolysosomes and raise their luminal Cl- concentration. Disruption of endosomal ClC-3 causes severe neurodegeneration. To assess the importance of ClC-3 Cl- /H+ exchange, we now generate Clcn3unc/unc mice in which ClC-3 is converted into a Cl- channel. Unlike Clcn3-/- mice, Clcn3unc/unc mice appear normal owing to compensation by ClC-4 with which ClC-3 forms heteromers. ClC-4 protein levels are strongly reduced in Clcn3-/- , but not in Clcn3unc/unc mice because ClC-3unc binds and stabilizes ClC-4 like wild-type ClC-3. Although mice lacking ClC-4 appear healthy, its absence in Clcn3unc/unc /Clcn4-/- mice entails even stronger neurodegeneration than observed in Clcn3-/- mice. A fraction of ClC-3 is found on synaptic vesicles, but miniature postsynaptic currents and synaptic vesicle acidification are not affected in Clcn3unc/unc or Clcn3-/- mice before neurodegeneration sets in. Both, Cl- /H+ -exchange activity and the stabilizing effect on ClC-4, are central to the biological function of ClC-3.


Subject(s)
Chloride Channels/genetics , Chloride Channels/metabolism , Endosomes/metabolism , Neurodegenerative Diseases/genetics , Animals , COS Cells , Chlorocebus aethiops , Disease Models, Animal , Mice , Mutation , Neurodegenerative Diseases/metabolism , Synaptic Vesicles/metabolism
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