CACNA1A haploinsufficiency leads to reduced synaptic function and increased intrinsic excitability

单倍率不足 神经科学 功能(生物学) 心理学 生物 遗传学 基因 表型
作者
Marina P. Hommersom,Nina Doorn,Sofía Puvogel,Elly Lewerissa,Annika Mordelt,Ummi Ciptasari,Franziska Kampshoff,Lieke Dillen,Ellen van Beusekom,Astrid Oudakker,Naoki Kogo,Amalia M. Dolga,Monica Frega,Dirk Schubert,Ilse Eidhof,Xavier Le Guillou Horn,Hans van Bokhoven
出处
期刊:Brain [Oxford University Press]
标识
DOI:10.1093/brain/awae330
摘要

Haploinsufficiency of the CACNA1A gene, encoding the pore-forming α1 subunit of P/Q-type voltage-gated calcium channels, is associated with a clinically variable phenotype ranging from cerebellar ataxia, to neurodevelopmental syndromes with epilepsy and intellectual disability. To understand the pathological mechanisms of CACNA1A loss-of-function variants, we characterized a human neuronal model for CACNA1A haploinsufficiency, by differentiating isogenic induced pluripotent stem cell lines into glutamatergic neurons, and investigated the effect of CACNA1A haploinsufficiency on mature neuronal networks through a combination of electrophysiology, gene expression analysis, and in silico modeling. We observed an altered network synchronization in CACNA1A+/- networks alongside synaptic deficits, notably marked by an augmented contribution of GluA2-lacking AMPA receptors. Intriguingly, these synaptic perturbations coexisted with increased non-synaptically driven activity, as characterized by inhibition of NMDA and AMPA receptors on micro-electrode arrays. Single-cell electrophysiology and gene expression analysis corroborated this increased intrinsic excitability through reduced potassium channel function and expression. Moreover, we observed partial mitigation of the CACNA1A+/- network phenotype by 4-aminopyridine, a therapeutic intervention for episodic ataxia type 2. Positive modulation of KCa2 channels could reverse the CACNA1A+/- network electrophysiological phenotype. In summary, our study pioneers the characterization of a human induced pluripotent stem cell-derived neuronal model for CACNA1A haploinsufficiency, and has unveiled novel mechanistic insights. Beyond showcasing synaptic deficits, this neuronal model exhibited increased intrinsic excitability mediated by diminished potassium channel function, underscoring its potential as a therapeutic discovery platform with predictive validity.

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