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An In Vitro Differentiation Protocol for Human Embryonic Bipotential Gonad and Testis Cell Development

Ingrid Knarston, Svenja Pachernegg, Gorjana Robevska, Irene M. Ghobrial, Pei Xuan Er, Elizabeth Georges, Minoru Takasato, Alexander N. Combes, Anne Jørgensen, Melissa H. Little, Andrew Sinclair, Katie Ayers

2020Stem Cell Reports49 citationsDOIOpen Access PDF

Abstract

Currently an in vitro model that fully recapitulates the human embryonic gonad is lacking. Here we describe a fully defined feeder-free protocol to generate early testis-like cells with the ability to be cultured as an organoid, from human induced pluripotent stem cells. This stepwise approach uses small molecules to mimic embryonic development, with upregulation of bipotential gonad markers (LHX9, EMX2, GATA4, and WT1) at day 10 of culture, followed by induction of testis Sertoli cell markers (SOX9, WT1, and AMH) by day 15. Aggregation into 3D structures and extended culture on Transwell filters yielded organoids with defined tissue structures and distinct Sertoli cell marker expression. These studies provide insight into human gonadal development, suggesting that a population of precursor cells may originate from a more lateral region of the mesoderm. Our protocol represents a significant advance toward generating a much-needed human gonad organoid for studying disorders/differences of sex development.

Topics & Concepts

BiologyGonadSertoli cellEmbryonic stem cellCell biologyInduced pluripotent stem cellSOX9Disorders of sex developmentCellular differentiationStem cellPopulationMesodermAnatomyTranscription factorGeneticsEndocrinologySpermatogenesisGeneSociologyDemographyRenal and related cancersGenetic and Clinical Aspects of Sex Determination and Chromosomal AbnormalitiesSexual Differentiation and Disorders