TGF-ß is responsible for NK cell immaturity during ontogeny and increased susceptibility to infection during mouse infancy.

A large gap in our understanding of infant immunity is why natural killer (NK) cell responses are deficient, which makes infants more prone to viral infection. Here we demonstrate that transforming growth factor-ß (TGF-ß) was responsible for NK cell immaturity during infancy. We found more fully mature NK cells in CD11c(dnR) mice, whose NK cells lack TGF-ß receptor (TGF-ßR) signaling. Ontogenic maturation of NK cells progressed faster in the absence of TGF-ß signaling, which results in the formation of a mature NK cell pool early in life. As a consequence, infant CD11c(dnR) mice efficiently controlled viral infections. These data thus demonstrate an unprecedented role for TGF-ß in ontogeny that can explain why NK cell responses are deficient early in life.

CD1d-unrestricted NKT cells are endowed with a hybrid function far superior than that of iNKT cells.

Invariant natural killer T (iNKT) cells to date represent the best example of cells known to have a hybrid function, representing both innate and adaptive immunity. Shared phenotypic similarities with NK cells together with a rapid response to a cytokine stimulus and a productive TCR engagement are the features that underline the hybrid nature of iNKT cells. Using these criteria, we provide molecular and functional evidence demonstrating that CD1d-independent (CD1d(ind)) NKT cells, a population of CD1d-unrestricted NKT cells, are endowed with a hybrid function far superior to that of iNKT cells: (i) an extensive shared program with NK cells, (ii) a closer Euclidian distance with NK cells, and (iii) the ability to respond to innate stimuli (Poly:IC) with cytotoxic potential in the same manner as NK cells identify a hybrid feature in CD1d(ind)NKT cells that truly fulfills the dual function of an NK and a T cell. Our finding that CD1d(ind)NKT cells are programmed to act like NK cells in response to innate signals while being capable of adaptive responses is unprecedented, and thus might reemphasize CD1d-unrestricted NKT cells as a subset of lymphocytes that could affect biological processes of antimicrobial and tumor immunity in a unique way.