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W2953404211 abstract "In the past years, there have been significant advances in the understanding of how environmental conditions alone or in conjunction with pathogen invasion affect the metabolism of T cells, thereby influencing their activation, differentiation and longevity. Detailed insights of the interlinked processes of activation and metabolism can contribute to major advances in immunotherapies. Naive and memory T cells circulate the body. In a quiescent state with low metabolic demands, they predominantly use oxidative phosphorylation for their energy needs. Recognition of cognate antigen combined with costimulatory signals results in a proliferative burst and effector molecule production, requiring rapid release of energy, achieved via dynamically reprogramming of metabolic pathways. After activation, most T cells succumb to activation induced cell death, but few differentiate into memory T cells. Of note, some memory T cells permanently occupy tissues without circulating. These, tissue resident T cells are predominantly CD8 T cells, maintained in a metabolic state distinct from naïve and circulating memory CD8 T cells with elements similar to effector CD8 T cells but without undergoing proliferative burst or secreting immune mediators. They continually interact with tissue cells as part of an immune surveillance network, are well adapted to the tissues they have made their home and where they may encounter different metabolic environments. In this review, we will discuss recent insights in metabolic characteristics of CD8 T cell biology, with emphasis on tissue resident CD8 T cells at the epithelial barriers." @default.
W2953404211 created "2019-07-12" @default.
W2953404211 creator A5078799040 @default.
W2953404211 creator A5082073030 @default.
W2953404211 date "2019-07-17" @default.
W2953404211 modified "2023-09-30" @default.
W2953404211 title "Dynamic Metabolic State of Tissue Resident CD8 T Cells" @default.
W2953404211 cites W1554928740 @default.
W2953404211 cites W1563775926 @default.
W2953404211 cites W1564355150 @default.
W2953404211 cites W1573217928 @default.
W2953404211 cites W1582767991 @default.
W2953404211 cites W1632859538 @default.
W2953404211 cites W1766732272 @default.
W2953404211 cites W1872721533 @default.
W2953404211 cites W1901439132 @default.
W2953404211 cites W1903699177 @default.
W2953404211 cites W1911153075 @default.
W2953404211 cites W1967727543 @default.
W2953404211 cites W1968679242 @default.
W2953404211 cites W1968797543 @default.
W2953404211 cites W1976555781 @default.
W2953404211 cites W1976714959 @default.
W2953404211 cites W1981480494 @default.
W2953404211 cites W1987120082 @default.
W2953404211 cites W1989156064 @default.
W2953404211 cites W1990423632 @default.
W2953404211 cites W1992031335 @default.
W2953404211 cites W1992250154 @default.
W2953404211 cites W1993003564 @default.
W2953404211 cites W1995796039 @default.
W2953404211 cites W1999324987 @default.
W2953404211 cites W2007505836 @default.
W2953404211 cites W2008234142 @default.
W2953404211 cites W2028897202 @default.
W2953404211 cites W2040177546 @default.
W2953404211 cites W2040358658 @default.
W2953404211 cites W2050337777 @default.
W2953404211 cites W2052275203 @default.
W2953404211 cites W2053415002 @default.
W2953404211 cites W2059423024 @default.
W2953404211 cites W2059689009 @default.
W2953404211 cites W2064876347 @default.
W2953404211 cites W2065779229 @default.
W2953404211 cites W2067229758 @default.
W2953404211 cites W2068393876 @default.
W2953404211 cites W2075901463 @default.
W2953404211 cites W2076077090 @default.
W2953404211 cites W2078610584 @default.
W2953404211 cites W2079999658 @default.
W2953404211 cites W2081097093 @default.
W2953404211 cites W2082024883 @default.
W2953404211 cites W2087435147 @default.
W2953404211 cites W2088553840 @default.
W2953404211 cites W2090631969 @default.
W2953404211 cites W2095434093 @default.
W2953404211 cites W2104082830 @default.
W2953404211 cites W2113628320 @default.
W2953404211 cites W2116676186 @default.
W2953404211 cites W2121540269 @default.
W2953404211 cites W2129726409 @default.
W2953404211 cites W2131199230 @default.
W2953404211 cites W2132667524 @default.
W2953404211 cites W2134285290 @default.
W2953404211 cites W2135463621 @default.
W2953404211 cites W2137470659 @default.
W2953404211 cites W2140368190 @default.
W2953404211 cites W2146791037 @default.
W2953404211 cites W2150992850 @default.
W2953404211 cites W2156145814 @default.
W2953404211 cites W2160694063 @default.
W2953404211 cites W2166321278 @default.
W2953404211 cites W2273021913 @default.
W2953404211 cites W2415427537 @default.
W2953404211 cites W2505159449 @default.
W2953404211 cites W2559233139 @default.
W2953404211 cites W2589066097 @default.
W2953404211 cites W2626179297 @default.
W2953404211 cites W2691941774 @default.
W2953404211 cites W2754079107 @default.
W2953404211 cites W2762609158 @default.
W2953404211 cites W2788546163 @default.
W2953404211 cites W2791192045 @default.
W2953404211 cites W2795702337 @default.
W2953404211 cites W2800036554 @default.
W2953404211 cites W2801856149 @default.
W2953404211 cites W2809065047 @default.
W2953404211 cites W2810583651 @default.
W2953404211 cites W2810947153 @default.
W2953404211 cites W2864895768 @default.
W2953404211 cites W2883703359 @default.
W2953404211 cites W2903916121 @default.
W2953404211 cites W2904584446 @default.
W2953404211 cites W2912684103 @default.
W2953404211 cites W2917601233 @default.
W2953404211 cites W2922778385 @default.
W2953404211 cites W4255285232 @default.
W2953404211 cites W900373682 @default.
W2953404211 doi "https://doi.org/10.3389/fimmu.2019.01683" @default.
W2953404211 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6650586" @default.