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Tracing colonic embryonic transcriptional profiles and their reactivation upon intestinal damage

Hassan Fazilaty, Michael David Brügger, Tomáš Valenta, Barbara M. Szczerba, Linda Berková, Nikolaos Doumpas, George Hausmann, Michael Scharl, Konrad Basler

2021Cell Reports42 citationsDOIOpen Access PDF

Abstract

We lack a holistic understanding of the genetic programs orchestrating embryonic colon morphogenesis and governing damage response in the adult. A window into these programs is the transcriptomes of the epithelial and mesenchymal cell populations in the colon. Performing unbiased single-cell transcriptomic analyses of the developing mouse colon at different embryonic stages (embryonic day 14.5 [E14.5], E15.5, and E18.5), we capture cellular and molecular profiles of the stages before, during, and after the appearance of crypt structures, as well as in a model of adult colitis. The data suggest most adult lineages are established by E18.5. We find embryonic-specific gene expression profiles and cell populations that reappear in response to tissue damage. Comparison of the datasets from mice and human colitis suggests the processes are conserved. In this study, we provide a comprehensive single-cell atlas of the developing mouse colon and evidence for the reactivation of embryonic genes in disease.

Topics & Concepts

Embryonic stem cellBiologyTranscriptomeCell biologyMorphogenesisCryptGeneEmbryogenesisEmbryoCellModel organismColitisGene expressionGeneticsImmunologyEndocrinologySingle-cell and spatial transcriptomicsGenetic factors in colorectal cancerCancer Cells and Metastasis