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Embryonic and neonatal waves generate distinct populations of hepatic ILC1s

Colin Sparano, Darío Solís-Sayago, Anjali Vijaykumar, Chiara Rickenbach, Marijne Vermeer, Florian Ingelfinger, Gioana Litscher, André Fonseca, Caroline Mussak, Maud Mayoux, Christin Friedrich, César Nombela‐Arrieta, Georg Gasteiger, Burkhard Becher, Sònia Tugues

2022Science Immunology27 citationsDOI

Abstract

Group 1 innate lymphoid cells (ILCs) comprising circulating natural killer (cNK) cells and tissue-resident ILC1s are critical for host defense against pathogens and tumors. Despite a growing understanding of their role in homeostasis and disease, the ontogeny of group 1 ILCs remains largely unknown. Here, we used fate mapping and single-cell transcriptomics to comprehensively investigate the origin and turnover of murine group 1 ILCs. Whereas cNK cells are continuously replaced throughout life, we uncovered tissue-dependent development and turnover of ILC1s. A first wave of ILC1s emerges during embryogenesis in the liver and transiently colonizes fetal tissues. After birth, a second wave quickly replaces ILC1s in most tissues apart from the liver, where they layer with embryonic ILC1s, persist until adulthood, and undergo a specific developmental program. Whereas embryonically derived ILC1s give rise to a cytotoxic subset, the neonatal wave establishes the full spectrum of ILC1s. Our findings uncover key ontogenic features of murine group 1 ILCs and their association with cellular identities and functions.

Topics & Concepts

BiologyInnate lymphoid cellEmbryonic stem cellImmunologyTranscriptomeHomeostasisCell biologyStem cellImmune systemInnate immune systemGeneticsGene expressionGeneIL-33, ST2, and ILC PathwaysImmune Cell Function and InteractionEosinophilic Esophagitis
Embryonic and neonatal waves generate distinct populations of hepatic ILC1s | Litcius