An in Vitro Neurogenetics Platform for Precision Disease Modeling in the Mouse

Overview

Journal Sci Adv

Specialties Biology
Science

Date 2024 Apr 3

PMID 38569042

Authors

Daniel E Cortes

Melanie Escudero

Austin C Korgan

Arojit Mitra

Alyssa Edwards

Selcan C Aydin

Steven C Munger

Kevin Charland

Zhong-Wei Zhang

Kristen M S OConnell

Laura G Reinholdt

Martin F Pera

Affiliations

Soon will be listed here.

Abstract

The power and scope of disease modeling can be markedly enhanced through the incorporation of broad genetic diversity. The introduction of pathogenic mutations into a single inbred mouse strain sometimes fails to mimic human disease. We describe a cross-species precision disease modeling platform that exploits mouse genetic diversity to bridge cell-based modeling with whole organism analysis. We developed a universal protocol that permitted robust and reproducible neural differentiation of genetically diverse human and mouse pluripotent stem cell lines and then carried out a proof-of-concept study of the neurodevelopmental gene . Results in vitro reliably predicted the effects of genetic background on loss-of-function phenotypes in vivo. Transcriptomic comparison of responsive and unresponsive strains identified molecular pathways conferring sensitivity or resilience to loss and highlighted differential messenger RNA isoform usage as an important determinant of response. This cross-species strategy provides a powerful tool in the functional analysis of candidate disease variants identified through human genetic studies.

Citing Articles

Characterizing executive functioning and associated behaviors in individuals with dual-specificity tyrosine phosphorylation-regulated kinase 1A () syndrome.

Rea H, Webb S, Kurtz-Nelson E, Hudac C, Bernier R, Miles C Front Neurosci. 2025; 18():1485499.

PMID: 39840013 PMC: 11747226. DOI: 10.3389/fnins.2024.1485499.

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