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Aberrant calcium channel splicing drives defects in cortical differentiation in Timothy syndrome.

eLife (2019-12-24)
Georgia Panagiotakos, Christos Haveles, Arpana Arjun, Ralitsa Petrova, Anshul Rana, Thomas Portmann, Sergiu P Paşca, Theo D Palmer, Ricardo E Dolmetsch
RESUMEN

The syndromic autism spectrum disorder (ASD) Timothy syndrome (TS) is caused by a point mutation in the alternatively spliced exon 8A of the calcium channel Cav1.2. Using mouse brain and human induced pluripotent stem cells (iPSCs), we provide evidence that the TS mutation prevents a normal developmental switch in Cav1.2 exon utilization, resulting in persistent expression of gain-of-function mutant channels during neuronal differentiation. In iPSC models, the TS mutation reduces the abundance of SATB2-expressing cortical projection neurons, leading to excess CTIP2+ neurons. We show that expression of TS-Cav1.2 channels in the embryonic mouse cortex recapitulates these differentiation defects in a calcium-dependent manner and that in utero Cav1.2 gain-and-loss of function reciprocally regulates the abundance of these neuronal populations. Our findings support the idea that disruption of developmentally regulated calcium channel splicing patterns instructively alters differentiation in the developing cortex, providing important in vivo insights into the pathophysiology of a syndromic ASD.

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Anticuerpo anti-GAPDH, monoclonal de ratón antibody produced in mouse, clone GAPDH-71.1, purified from hybridoma cell culture
Sigma-Aldrich
Anti-Calcium Channel Antibody, Voltage Gated α 1C, Chemicon®, from rabbit