CD4+ cells act primarily by secreting soluble factors (cytokines)

CD4+ cells act primarily by secreting soluble factors (cytokines) that are FG-4592 chemical structure able to exert direct antimicrobial properties and affect the behaviour of other immune cells. In most cases, CD4+ cells help other immune cells perform their task and are, therefore, referred to as helper T cells (Th). Based on the types of cytokines they secrete and differing abilities to help other subsets of immune cells, several sub-populations of Th cells have been identified (Appendices, Supplementary Table 3). One subset of Th cells, the Th1 cells, appear to secrete mainly interferon-gamma (IFNγ),

a cytokine known to limit pathogen survival and spreading. It is also known to promote the differentiation of cytolytic cells that are able to destroy cells infected

with intracellular pathogens (see CD8+ T cells). Th1 cells are, therefore, considered important for inducing immune responses involved in the clearance of pathogens. Another subset of T helper cells, the Th2 cells, produce cytokines (interleukins [IL] IL-4, IL-5, IL-13) that appear particularly apt at activating innate cells (eosinophils, mast cells) which are often involved in the immune response to large extracellular parasites. Another subset, termed follicular T helper cells (Tfh) based on their tissue localisation in follicular structures, have been defined by secretion of IL-21, a cytokine thought to favour the secretion of antibodies by antigen-specific B cells. Identified around 2005, Tfh cells were thought to be part of the Th2 subset based on the profile of cytokines they produced, but have subsequently been identified as a distinct subset of T cells that Talazoparib concentration fulfil some of the roles originally attributed to Th2 cells. Activation of CD4+

cells represents a key step in setting in motion an adaptive immune response. Through their ability G protein-coupled receptor kinase to secrete cytokines, these helper cells will augment the capacity of other immune cells to perform their tasks. The adaptive immune response is frequently characterised by two effector cell populations, the CD8-expressing cytolytic T cells and the antibody-secreting B cells. CD8+ T cells exploit the TCR/MHC interaction around pathogen-derived peptides to detect and fight intracellular pathogens. To achieve this, CD8+ T cells rely on the fact that virtually all nucleated cells (with a few notable exceptions) present fragments of intracellular proteins at their surface as part of the body’s normal surveillance processes. In contrast to classically defined APCs, which display antigenic fragments in association with MHC class II molecules, non-immune cells use a closely related set of molecules to display peptides derived from the cytoplasm – the MHC class I molecules. This complex mechanism of antigen presentation allows CD8+ T cells to scan proteins from within the cell, while preserving the integrity of the cell membrane.

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