2013
DOI: 10.2174/138161213805219711
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T Cell Replicative Senescence in Human Aging

Abstract: The decline of the immune system appears to be an intractable consequence of aging, leading to increased susceptibility to infections, reduced effectiveness of vaccination and higher incidences of many diseases including osteoporosis and cancer in the elderly. These outcomes can be attributed, at least in part, to a phenomenon known as T cell replicative senescence, a terminal state characterized by dysregulated immune function, loss of the CD28 costimulatory molecule, shortened telomeres and elevated producti… Show more

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Cited by 206 publications
(200 citation statements)
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References 297 publications
(295 reference statements)
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“…An increase in the incidence of diseases related to dysfunctional mitochondria and associated with premature ageing (i.e., cardiovascular disease, diabetes, kidney and liver disease, metabolic disorders, osteoporosis, and lipodystrophy) has been described in patients under HAART [1, 3, 8, 119]. An accumulation of mitochondrial DNA (mtDNA) mutations has been also found to increase with age, and aberrant mtDNA rep­lication contributes to premature ageing phenotypes [120-123].…”
Section: Art and Mitochondriamentioning
confidence: 99%
“…An increase in the incidence of diseases related to dysfunctional mitochondria and associated with premature ageing (i.e., cardiovascular disease, diabetes, kidney and liver disease, metabolic disorders, osteoporosis, and lipodystrophy) has been described in patients under HAART [1, 3, 8, 119]. An accumulation of mitochondrial DNA (mtDNA) mutations has been also found to increase with age, and aberrant mtDNA rep­lication contributes to premature ageing phenotypes [120-123].…”
Section: Art and Mitochondriamentioning
confidence: 99%
“…Cellular senescence, especially telomere‐dependent senescence, has been known for years to occur in immune cells (for review, Chou & Effros, 2013). Recent work suggests that the onset of cellular senescence can also be used by the immune system to guide immune cell fate decision, regulate immune responses, and control tissue homeostasis during the entire life of an individual.…”
Section: Introductionmentioning
confidence: 99%
“…With normal ageing, there is a systemic reduction in naïve circulating T cells and rise in memory T cells that have undergone several rounds of antigen-induced replication (Saule et al 2006). Importantly, with lifelong repetitive antigenic stimulation, memory T cells show signs of senescence (Chou & Effros, 2013). In particular, senescent CD8+ T cells have shorter telomeres, lose the ability to express key co-stimulatory molecules (like CD28) and lose cytotoxic capacity, switching instead to a proinflammatory phenotype being their accumulation associated with impaired immunity (Chou & Effros, 2013;Saurwein-Teissl et al 2002).…”
Section: Immune-senescence Oxidative and Metabolic Stress In Ageing mentioning
confidence: 99%
“…Importantly, with lifelong repetitive antigenic stimulation, memory T cells show signs of senescence (Chou & Effros, 2013). In particular, senescent CD8+ T cells have shorter telomeres, lose the ability to express key co-stimulatory molecules (like CD28) and lose cytotoxic capacity, switching instead to a proinflammatory phenotype being their accumulation associated with impaired immunity (Chou & Effros, 2013;Saurwein-Teissl et al 2002). These age-related changes are also characteristic of individuals with recurrent viral infections.…”
Section: Immune-senescence Oxidative and Metabolic Stress In Ageing mentioning
confidence: 99%