Author: Elmentaite, R; Kumasaka, N; King, HW; Roberts, K; Dabrowska, M; Pritchard, S; Bolt, L; Vieira, SF; Mamanova, L; Huang, N; Goh Kai’En, I; Stephenson, E; Engelbert, J; Botting, RA; Fleming, A; Dann, E; Lisgo, SN; Katan, M; Leonard, S; Oliver, TRW; Hook, CE; Nayak, K; Perrone, F; Campos, LS; Dominguez-Conde, C; Polanski, K; Van Dongen, S; Patel, M; Morgan, MD; Marioni, JC; Bayraktar, OA; Meyer, KB; Zilbauer, M; Uhlig, H; Clatworthy, MR; Mahbubani, KT; Saeb Parsy, K; Haniffa, M; James, KR; Teichmann, SA
Title: Cells of the human intestinal tract mapped across space and time Cord-id: c2l4a7mf Document date: 2021_4_7
ID: c2l4a7mf
Snippet: The cellular landscape of the human intestinal tract is dynamic throughout life, developing in utero and changing in response to functional requirements and environmental exposures. To comprehensively map cell lineages in the healthy developing, pediatric and adult human gut from ten distinct anatomical regions, as well as draining lymph nodes, we used singlecell RNA-seq and VDJ analysis of roughly one third of a million cells. This reveals the presence of BEST4+ absorptive cells throughout the
Document: The cellular landscape of the human intestinal tract is dynamic throughout life, developing in utero and changing in response to functional requirements and environmental exposures. To comprehensively map cell lineages in the healthy developing, pediatric and adult human gut from ten distinct anatomical regions, as well as draining lymph nodes, we used singlecell RNA-seq and VDJ analysis of roughly one third of a million cells. This reveals the presence of BEST4+ absorptive cells throughout the human intestinal tract, demonstrating the existence of this cell type beyond the colon for the first time. Furthermore, we implicate IgG sensing as a novel function of intestinal tuft cells, and link these cells to the pathogenesis of inflammatory bowel disease. We define novel glial and neuronal cell populations in the developing enteric nervous system, and predict cell-type specific expression of Hirschsprung’s disease-associated genes. Finally, using a systems approach, we identify key cell players across multiple cell lineages driving secondary lymphoid tissue formation in early human development. We show that these programs are adopted in inflammatory bowel disease to recruit and retain immune cells at the site of inflammation. These data provide an unprecedented catalogue of intestinal cells, and new insights into cellular programs in development, homeostasis and disease.
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