Unlike MHC-restricted T cells, iNKT

Unlike MHC-restricted T cells, iNKT selleck chemical cells recognize lipids presented by CD1d. The iNKT cells can produce various types of cytokines, rapidly and at high levels, which is why they are part

of the innate immune system. They are often the first T cells to be activated and their rapid cytokine production means that they potently transactivate other immune cells. Therefore they are an important bridge between the innate and adaptive immune system, and can orchestrate or skew an immune response depending on the array of cytokines that they produce. Importantly, we have identified a striking role for iNKT cells in regulating adipose tissue inflammation, metabolism and weight control. This review will discuss the series of findings on adipose iNKT cells that have emerged in recent years, the controversies in the metabolic phenotype of iNKT-deficient mice, and the exciting potential they may hold for manipulating

the adipose immune system in obesity. Invariant NKT cells are a specialized subset of innate T cells that are highly conserved in mammals.[4] Adaptive T cells see more recognize peptides presented by MHC molecules, but iNKT cells recognize lipids presented by CD1d molecules.[5] CD1d is a non-polymorphic MHC class I-like molecule that is expressed on antigen-presenting cells such as dendritic cells, macrophages and B cells. CD1d is also expressed on non-haematopoietic cells including hepatocytes[6] and adipocytes.[7, 8] The iNKT cells recognize their lipid ligands on CD1d through their semi-invariant T-cell receptor (TCR).[9-11] In mice, iNKT cells express TCRs comprising a Vα14-Jα18 chain paired with a limited Vβ chain repertoire (Vβ2, Vβ7, Vβ8.1,

Vβ8.2 or Vβ8.3).[12, 13] In humans, iNKT cells express Vα24-Jα18 chain paired almost exclusively with a Vβ11 chain.[14] Like iNKT cells, CD1d is highly conserved in mammals.[15] There is a large degree of functional and structural similarity between the TCRs that are expressed by human and mouse iNKT cells, to the degree that some lipids presented by human CD1d can be recognized by murine iNKT cells and vice versa. The first lipid to be identified as an antigen for iNKT cells was α-galactosylceramide (αGalCer), which remains the most potent activator of Isoconazole iNKT cells. αGalCer was discovered during a screen of marine sponges for anti-cancer activity in 1997, and is derived from marine sponges, or possibly the microbes that inhabit them, and was synthetically modified to be a potent pharmacalogical activator of iNKT cells. The search for physiologically relevant lipids from pathogens or self-lipids recognized by iNKT cells is under intense investigation, and recently there have been many breakthroughs identifying endogenous and microbial lipid ligands. Endogenous lipids include isoglobotrihexosylceramide,[16] glucosylceramide,[17] lysophosphatidylcholine[18] and ether-bonded phospholipids derived from peroxisomes.

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