Scaled and Efficient Derivation of Loss of Function Alleles in Risk Genes for Neurodevelopmental and Psychiatric Disorders in Human iPSC

Hanwen Zhang
Lilia Peyton
Ada McCarroll
Sol Díaz de León Guerrerro
Siwei Zhang
Prarthana Gowda
David Sirkin
Mahmoud El Achwah
Alexandra Duhe
Whitney G. Wood
Brandon Jamison
Gregory Tracy
Rebecca Pollak
Ronald P. Hart
Carlos N. Pato
Jennifer G. Mulle
Alan R. Sanders
Zhiping P. Pang
Jubao Duan

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Abstract

Translating genetic findings for neurodevelopmental and psychiatric disorders (NPD) into actionable disease biology would benefit from large-scale and unbiased functional studies of NPD genes. Leveraging the cytosine base editing (CBE) system, here we developed a pipeline for clonal loss-of-function (LoF) allele mutagenesis in human induced pluripotent stem cells (hiPSCs) by introducing premature stop-codons (iSTOP) that lead to mRNA nonsense-mediated-decay (NMD) or protein truncation. We tested the pipeline for 23 NPD genes on 3 hiPSC lines and achieved highly reproducible, efficient iSTOP editing in 22 NPD genes. Using RNAseq, we confirmed their pluripotency, absence of chromosomal abnormalities, and NMD. Interestingly, for three schizophrenia risk genes ( SETD1A, TRIO , CUL1 ), despite the high efficiency of base editing, we only obtained heterozygous LoF alleles, suggesting their essential roles for cell growth. We replicated the reported neural phenotypes of SHANK3 -haploinsufficiency and found CUL1 -LoF reduced neurite branches and synaptic puncta density. This iSTOP pipeline enables a scaled and efficient LoF mutagenesis of NPD genes, yielding an invaluable shareable resource.

Version published to 10.1101/2024.03.18.585542v1 on bioRxiv
Mar 19, 2024

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Scaled and Efficient Derivation of Loss of Function Alleles in Risk Genes for Neurodevelopmental and Psychiatric Disorders in Human iPSC

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Abstract

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MARK2 variants cause autism spectrum disorder via the downregulation of WNT/β-catenin signaling pathway

Transcriptomic and epigenomic consequences of heterozygous loss of function mutations in AKAP11 , the first large-effect shared risk gene for bipolar disorder and schizophrenia

RosetteArray ^® Platform for Quantitative High-Throughput Screening of Human Neurodevelopmental Risk

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