A committed hemopoietic precursor to innate lymphoid cells (HEM3P.277)

Abstract

Abstract Innate lymphoid cells specialize in the rapid secretion of polarized sets of cytokines and chemokines to combat infection and promote tissue repair at mucosal barriers. Their growing diversity and close similarities with previously characterized NK and LTi cells have prompted a provisional classification of all innate lymphocytes into groups 1, 2 and 3 based solely on cytokine properties. Elucidating their development pathways is essential to resolve their lineage relationships and dissect their respective functions in disease and homeostasis. Using lineage tracing and transfer studies, we identified and characterized a novel subset of lymphoid precursors in fetal liver and adult bone marrow that transiently expressed high amounts of PLZF, a transcription factor previously associated with NKT cell development. PLZF-high precursors were committed ILC progenitors with multiple ILC1, ILC2 and ILC3 lineage differentiation potential at the clonal level. They excluded classical LTi and NK cells, but included a peculiar subset of NK1.1+ DX5- ‘NK-like’ cells residing in the liver. Deletion of PLZF markedly altered the frequency and function of several ILC subsets, but did not affect LTi or NK cells. These findings establish novel lineage relationships between ILC, NK and LTi cells and identify the elusive precursor to ILC, termed ILCP. They also reveal the broad, defining role of PLZF in the differentiation of innate lymphocytes.