Abstract
SummaryCASK-related disorders are a genetically defined group of neurodevelopmental syndromes. There is limited information about the effects of CASK mutations in human neurons. Therefore, we sought to delineate CASK mutation consequences and neuronal level effects using induced pluripotent stem cell-derived neurons from two mutation carriers; one male diagnosed with ASD and a female with MICPCH. We show a reduction of the CASK protein in maturing neurons from the mutation carriers, which leads to significant downregulation of gene sets involved in presynaptic development and CASK protein interactors. Furthermore, CASK-deficient neurons showed decreased inhibitory presynapse size as indicated by VGAT staining, which may alter the excitatory-inhibitory (E/I) balance in developing neural circuitries. Using in vivo magnetic resonance spectroscopy quantification of GABA in the male mutation carrier, we further highlight the possibility to validate in vitro cellular data in brain. Our data shows that future pharmacological and clinical studies on targeting presynapses and E/I imbalance could lead to specific treatments for CASK-related disorders.HighlightsModelling of CASK-related disorders using iPSC-derived human neuronal cellsCASK mutations cause dysregulation of its protein interactor partnersReduced CASK levels primarily affect inhibitory presynapse developmentIn vitro GABAergic phenotype predicts in vivo neurotransmitter levels
Publisher
Cold Spring Harbor Laboratory