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CD70
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==Publications== {{medline-entry |title=[[CD70]] contributes to age-associated T cell defects and overwhelming inflammatory responses. |pubmed-url=https://pubmed.ncbi.nlm.nih.gov/32559178 |abstract=Aging is associated with immune dysregulation, especially T cell disorders, which result in increased susceptibility to various diseases. Previous studies have shown that loss of co-stimulatory receptors or accumulation of co-inhibitory molecules play important roles in T cell aging. In the present study, [[CD70]], which was generally regarded as a costimulatory molecule, was found to be upregulated on [[CD4]] and CD8 T cells of elderly individuals. Aged [[CD70]] T cells displayed a phenotype of over-activation, and expressed enhanced levels of numerous inhibitory receptors including PD-1, 2B4 and LAG-3. [[CD70]] T cells from elderly individuals exhibited increased susceptibility to apoptosis and high levels of inflammatory cytokines. Importantly, the functional dysregulation of [[CD70]] T cells associated with aging was reversed by blocking [[CD70]]. Collectively, this study demonstrated [[CD70]] as a prominent regulator involved in immunosenescence, which led to defects and overwhelming inflammatory responses of T cells during aging. These findings provide a strong rationale for targeting [[CD70]] to prevent dysregulation related to immunosenescence. |keywords=* CD70 * T cell aging * co-inhibitory molecules * immunosenescence * overwhelming inflammatory responses |full-text-url=https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7343466 }} {{medline-entry |title=Molecular mechanisms involved in the aging of the T-cell immune response. |pubmed-url=https://pubmed.ncbi.nlm.nih.gov/23730199 |abstract=T-lymphocytes play a central role in the effector and regulatory mechanisms of the adaptive immune response. Upon exiting the thymus they begin to undergo a series of phenotypic and functional changes that continue throughout the lifetime and being most pronounced in the elderly. The reason postulated for this is that the dynamic processes of repeated interaction with cognate antigens lead to multiple division cycles involving a high degree of cell differentiation, senescence, restriction of the T-cell receptor (TCR) repertoire, and cell cycle arrest. This cell cycle arrest is associated with the loss of telomere sequences from the ends of chromosomes. Telomere length is reduced at each cell cycle, and critically short telomeres recruit components of the DNA repair machinery and trigger replicative senescence or apoptosis. Repetitively stimulated T-cells become refractory to telomerase induction, suffer telomere erosion and enter replicative senescence. The latter is characterized by the accumulation of highly differentiated T-cells with new acquired functional capabilities, which can be caused by aberrant expression of genes normally suppressed by epigenetic mechanisms in CD4 or CD8 T-cells. Age-dependent demethylation and overexpression of genes normally suppressed by DNA methylation have been demonstrated in senescent subsets of T-lymphocytes. Thus, T-cells, principally CD4 CD28(null) T-cells, aberrantly express genes, including those of the KIR gene family and cytotoxic proteins such as perforin, and overexpress [[CD70]], IFN-γ, LFA-1 and others. In summary, owing to a lifetime of exposure to and proliferation against a variety of pathogens, highly differentiated T-cells suffer molecular modifications that alter their cellular homeostasis mechanisms. |keywords=* Differentiation * Epigenetic regulation * Immunosenescence * T-cell signalling * T-lymphocytes. * Telomere shortening * Thymic involution |full-text-url=https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3492799 }} {{medline-entry |title=Age-dependent decreases in DNA methyltransferase levels and low transmethylation micronutrient levels synergize to promote overexpression of genes implicated in autoimmunity and acute coronary syndromes. |pubmed-url=https://pubmed.ncbi.nlm.nih.gov/20035856 |abstract=T cell DNA methylation levels decline with age, activating genes such as KIR and TNFSF7 ([[CD70]]), implicated in lupus-like autoimmunity and acute coronary syndromes. The mechanisms causing age-dependent DNA demethylation are unclear. Maintenance of DNA methylation depends on DNA methyltransferase 1 (Dnmt1) and intracellular S-adenosylmethionine (SAM) levels, and is inhibited by S-adenosylhomocysteine (SAH). SAM levels depend on dietary micronutrients including folate and methionine. SAH levels depend on serum homocysteine concentrations. T cell Dnmt1 levels also decline with age. We hypothesized that age-dependent Dnmt1 decreases synergize with low folate, low methionine or high homocysteine levels to demethylate and activate methylation-sensitive genes. T cells from healthy adults ages 22-81, stimulated and cultured with low folate, low methionine, or high homocysteine concentrations showed demethylation and overexpression of KIR and [[CD70]] beginning at age approximately 50 and increased further with age. The effects were reproduced by Dnmt1 knockdowns in T cells from young subjects. These results indicate that maintenance of T cell DNA methylation patterns is more sensitive to low folate and methionine levels in older than younger individuals, due to low Dnmt1 levels, and that homocysteine further increases aberrant gene expression. Thus, attention to proper nutrition may be particularly important in the elderly. |mesh-terms=* Acute Coronary Syndrome * Adult * Aged * Aged, 80 and over * Aging * Autoimmune Diseases * CD27 Ligand * CD28 Antigens * Cells, Cultured * DNA (Cytosine-5-)-Methyltransferase 1 * DNA (Cytosine-5-)-Methyltransferases * DNA Methylation * DNA Modification Methylases * Female * Folic Acid * Gene Expression Regulation * Homocysteine * Humans * Male * Methionine * Micronutrients * Middle Aged * Receptors, KIR * T-Lymphocytes |keywords=* Aging * DNA methylation * Epigenetics * Senescence |full-text-url=https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2838973 }}
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