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Altered Cl- homeostasis hinders forebrain GABAergic interneuron migration in a mouse model of intellectual disability.

Proceedings of the National Academy of Sciences of the United States of America (2020-12-31)
Andrea Maset, Luisa Galla, Simona Francia, Olga Cozzolino, Paola Capasso, Rosa Chiara Goisis, Gabriele Losi, Angelo Lombardo, Gian Michele Ratto, Claudia Lodovichi
RESUMEN

Impairments of inhibitory circuits are at the basis of most, if not all, cognitive deficits. The impact of OPHN1, a gene associate with intellectual disability (ID), on inhibitory neurons remains elusive. We addressed this issue by analyzing the postnatal migration of inhibitory interneurons derived from the subventricular zone in a validated mouse model of ID (OPHN1-/y mice). We found that the speed and directionality of migrating neuroblasts were deeply perturbed in OPHN1-/y mice. The significant reduction in speed was due to altered chloride (Cl-) homeostasis, while the overactivation of the OPHN1 downstream signaling pathway, RhoA kinase (ROCK), caused abnormalities in the directionality of the neuroblast progression in mutants. Blocking the cation-Cl- cotransporter KCC2 almost completely rescued the migration speed while proper directionality was restored upon ROCK inhibition. Our data unveil a strong impact of OPHN1 on GABAergic inhibitory interneurons and identify putative targets for successful therapeutic approaches.

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Sigma-Aldrich
Gramicidin A, High Purity, Bacillus brevis, Gramicidin A, High Purity, Bacillus brevis, CAS 11029-61-1, is a naturally-occurring ion channel-forming pentadecapeptide. Causes K+/H+ exchange in mitochondria in a non-voltage dependent manner.
Sigma-Aldrich
VU0463271, ≥98% (HPLC)