Author: Goodier, Martin R; Riley, Eleanor M
Title: Regulation of the human NK cell compartment by pathogens and vaccines Cord-id: 966ldi6o Document date: 2021_1_18
ID: 966ldi6o
Snippet: Natural killer cells constitute a phenotypically diverse population of innate lymphoid cells with a broad functional spectrum. Classically defined as cytotoxic lymphocytes with the capacity to eliminate cells lacking selfâ€MHC or expressing markers of stress or neoplastic transformation, critical roles for NK cells in immunity to infection in the regulation of immune responses and as vaccineâ€induced effector cells have also emerged. A crucial feature of NK cell biology is their capacity to in
Document: Natural killer cells constitute a phenotypically diverse population of innate lymphoid cells with a broad functional spectrum. Classically defined as cytotoxic lymphocytes with the capacity to eliminate cells lacking selfâ€MHC or expressing markers of stress or neoplastic transformation, critical roles for NK cells in immunity to infection in the regulation of immune responses and as vaccineâ€induced effector cells have also emerged. A crucial feature of NK cell biology is their capacity to integrate signals from pathogenâ€, tumor†or stressâ€induced innate pathways and from antigenâ€specific immune responses. The extent to which innate and acquired immune mediators influence NK cell effector function is influenced by the maturation and differentiation state of the NK cell compartment; moreover, NK cell differentiation is driven in part by exposure to infection. Pathogens can thus mould the NK cell response to maximise their own success and/or minimise the damage they cause. Here, we review recent evidence that pathogen†and vaccineâ€derived signals influence the differentiation, adaptation and subsequent effector function of human NK cells.
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