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Literature DB >> 22626625

Telomeres and immune competency.

Abstract

Telomeres are essential for the integrity of chromosomes and for cellular replication. Attrition of telomeres occurs during DNA replication owing to the inability of conventional DNA polymerase to replicate chromosomal termini and the insufficient compensation for telomere loss by telomerase, an enzyme that synthesizes telomeric DNA. A number of genetic defects have been described in humans and in animal models that cause accelerated telomere attrition, in turn leading to severe phenotypes of hematopoietic and other proliferating cells. Telomere length, most frequently measured as an average value in heterogeneous peripheral blood leukocyte populations in humans, has been associated with a wide range of health conditions and diseases of immune and non-immune cells. Here, I review recent studies of telomere length dynamics with particular relevance to immune function. Published by Elsevier Ltd.

Entities: Disease Gene Species

Mesh：

Year: 2012 PMID： 22626625 PMCID： PMC3423542 DOI： 10.1016/j.coi.2012.05.001

Source DB: PubMed Journal: Curr Opin Immunol ISSN： 0952-7915 Impact factor: 7.486

49 in total

1. Lineage-specific telomere shortening and unaltered capacity for telomerase expression in human T and B lymphocytes with age.

Authors: N H Son; S Murray; J Yanovski; R J Hodes; N Weng
Journal: J Immunol Date: 2000-08-01 Impact factor: 5.422

Review 2. Telomeres and senescence: the history, the experiment, the future.

Authors: C W Greider
Journal: Curr Biol Date: 1998-02-26 Impact factor: 10.834

3. Decline in CD28+ T cells in centenarians and in long-term T cell cultures: a possible cause for both in vivo and in vitro immunosenescence.

Authors: R B Effros; N Boucher; V Porter; X Zhu; C Spaulding; R L Walford; M Kronenberg; D Cohen; F Schächter
Journal: Exp Gerontol Date: 1994 Nov-Dec Impact factor: 4.032

4. Shortened telomeres in clonally expanded CD28-CD8+ T cells imply a replicative history that is distinct from their CD28+CD8+ counterparts.

Authors: J Monteiro; F Batliwalla; H Ostrer; P K Gregersen
Journal: J Immunol Date: 1996-05-15 Impact factor: 5.422

5. T cell homeostasis in patients with rheumatoid arthritis.

Authors: K Koetz; E Bryl; K Spickschen; W M O'Fallon; J J Goronzy; C M Weyand
Journal: Proc Natl Acad Sci U S A Date: 2000-08-01 Impact factor: 11.205

6. Accelerated telomere shortening in response to life stress.

Authors: Elissa S Epel; Elizabeth H Blackburn; Jue Lin; Firdaus S Dhabhar; Nancy E Adler; Jason D Morrow; Richard M Cawthon
Journal: Proc Natl Acad Sci U S A Date: 2004-12-01 Impact factor: 11.205

7. Human naive and memory T lymphocytes differ in telomeric length and replicative potential.

Authors: N P Weng; B L Levine; C H June; R J Hodes
Journal: Proc Natl Acad Sci U S A Date: 1995-11-21 Impact factor: 11.205

8. Genetic determination of telomere size in humans: a twin study of three age groups.

Authors: P E Slagboom; S Droog; D I Boomsma
Journal: Am J Hum Genet Date: 1994-11 Impact factor: 11.025

Review 9. Immunity and immunization in elderly.

Authors: Patrice Bourée
Journal: Pathol Biol (Paris) Date: 2003-12

10. Telomere fluorescence measurements in granulocytes and T lymphocyte subsets point to a high turnover of hematopoietic stem cells and memory T cells in early childhood.

Authors: N Rufer; T H Brümmendorf; S Kolvraa; C Bischoff; K Christensen; L Wadsworth; M Schulzer; P M Lansdorp
Journal: J Exp Med Date: 1999-07-19 Impact factor: 14.307

31 in total

1. Telomere Length as an Indicator of the Robustness of B- and T-Cell Response to Influenza in Older Adults.

Authors: Kevin Najarro; Huy Nguyen; Guobing Chen; Mai Xu; Sandy Alcorta; Xu Yao; Linda Zukley; E Jeffrey Metter; Thai Truong; Yun Lin; Huifen Li; Mathias Oelke; Xiyan Xu; Shari M Ling; Dan L Longo; Jonathan Schneck; Sean Leng; Luigi Ferrucci; Nan-ping Weng
Journal: J Infect Dis Date: 2015-03-31 Impact factor: 5.226

2. Experimental manipulation of telomere length: does it reveal a corner-stone role for telomerase in the natural variability of individual fitness?

Authors: F Criscuolo; S Smith; S Zahn; B J Heidinger; M F Haussmann
Journal: Philos Trans R Soc Lond B Biol Sci Date: 2018-03-05 Impact factor: 6.237

3. Cellular aging over 13 years associated with incident antinuclear antibody positivity in the Baltimore Longitudinal Study of Aging.

Authors: Helen C S Meier; Christine G Parks; Hans B Liu; Dale P Sandler; Eleanor M Simonsick; Kevin Deane; Nan-Ping Weng
Journal: J Autoimmun Date: 2019-07-11 Impact factor: 7.094

4. Short telomere length in peripheral blood leukocyte predicts poor prognosis and indicates an immunosuppressive phenotype in gastric cancer patients.

Authors: Falin Qu; Renli Li; Xianli He; Qiucheng Li; Shuang Xie; Li Gong; Gang Ji; Jianguo Lu; Guoqiang Bao
Journal: Mol Oncol Date: 2014-12-03 Impact factor: 6.603

5. Telomere Length is a Susceptibility Marker for Tasmanian Devil Facial Tumor Disease.

Authors: Lane E Smith; Menna E Jones; Rodrigo Hamede; Rosana Risques; Austin H Patton; Patrick A Carter; Andrew Storfer
Journal: Ecohealth Date: 2020-10-30 Impact factor: 3.184

6. Premature cell senescence and T cell receptor-independent activation of CD8+ T cells in juvenile idiopathic arthritis.

Authors: Jeffrey A Dvergsten; Robert G Mueller; Patricia Griffin; Sameem Abedin; Allyson Pishko; Joshua J Michel; Margalit E Rosenkranz; Ann M Reed; Daniel A Kietz; Abbe N Vallejo
Journal: Arthritis Rheum Date: 2013-08