Abstract
Emergency conditions such as infection demand rapid production and activation of innate immune cells to combat noxious extrinsic agents. In mice, pathogen recognition through Toll like receptors (TLR) and the resulting pro-inflammatory cytokine release induce the expansion of bone marrow hematopoietic stem cells and instruct early differentiation fates so immediate innate cell development is guaranteed. Accordingly, recent work suggests that human primitive cell populations are also capable of microbial components discrimination through TLR, a mechanism that facilitates their differentiation to myeloid lineage cells. We have now found that early lymphoid progenitor cells from adult bone marrow display TLR9 and its ligation promotes the quick development of NK lineage cells by using mechanisms that involve IL-15R up-regulation. Strikingly, this phenomenon is not obvious in their neonatal counterparts, suggesting that contribution of neonatal seminal cells to the emergent cell production in response to viral signals may differ from that of adult cells.
Highlights
Of special interest, several dissimilarities regarding stem & progenitor cell biology have been described: when compared to their adult counterparts, neonatal primitive cells exhibit higher proliferation and expansion rates, shorter cell cycle progression, and distinct cytokine production patterns [5]
Pathogen recognition through Toll like receptors (TLR) and the resulting pro-inflammatory cytokine release induce the expansion of bone marrow hematopoietic stem cells and instruct early differentiation fates so immediate innate cell development is guaranteed
Recent work suggests that human primitive cell populations are capable of microbial components discrimination through TLR, a mechanism that facilitates their differentiation to myeloid lineage cells
Summary
Several dissimilarities regarding stem & progenitor cell biology have been described: when compared to their adult counterparts, neonatal primitive cells exhibit higher proliferation and expansion rates, shorter cell cycle progression, and distinct cytokine production patterns [5]. Emergency conditions such as infection demand rapid production and activation of innate immune cells to combat noxious extrinsic agents. Pathogen recognition through Toll like receptors (TLR) and the resulting pro-inflammatory cytokine release induce the expansion of bone marrow hematopoietic stem cells and instruct early differentiation fates so immediate innate cell development is guaranteed.
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