DNA Telomere Length Research Articles

Longer telomere length in COPD patients with α1-antitrypsin deficiency independent of lung function.

Oxidative stress is involved in the pathogenesis of airway obstruction in α1-antitrypsin deficient patients. This may result in a shortening of telomere length, resulting in cellular senescence. To test whether telomere length differs in α1-antitrypsin deficient patients compared with controls, we measured telomere length in DNA from peripheral blood cells of 217 α1-antitrypsin deficient patients and 217 control COPD patients. We also tested for differences in telomere length between DNA from blood and DNA from lung tissue in a subset of 51 controls. We found that telomere length in the blood was significantly longer in α1-antitrypsin deficient COPD patients compared with control COPD patients (p = 1×10−29). Telomere length was not related to lung function in α1-antitrypsin deficient patients (p = 0.3122) or in COPD controls (p = 0.1430). Although mean telomere length was significantly shorter in the blood when compared with the lungs (p = 0.0078), telomere length was correlated between the two tissue types (p = 0.0122). Our results indicate that telomere length is better preserved in α1-antitrypsin deficient COPD patients than in non-deficient patients. In addition, measurement of telomere length in the blood may be a suitable surrogate for measurement in the lung.

Social Isolation Shortens Telomeres in African Grey Parrots (Psittacus erithacus erithacus)

Telomeres, the caps of eukaryotic chromosomes, control chromosome stability and cellular senescence, but aging and exposure to chronic stress are suspected to cause attrition of telomere length. We investigated the effect of social isolation on telomere length in the highly social and intelligent African Grey parrot (Psittacus erithacus erithacus). Our study population consisted of single-housed (n = 26) and pair-housed (n = 19) captive individuals between 0.75 to 45 years of age. Relative telomere length of erythrocyte DNA was measured by quantitative real-time PCR. We found that telomere length declined with age (p<0.001), and socially isolated parrots had significantly shorter telomeres compared to pair-housed birds (p<0.001) – even among birds of similar ages. Our findings provide the first evidence that social isolation affects telomere length, which supports the hypothesis that telomeres provide a biomarker indicating exposure to chronic stress.

The Association Between Global DNA Methylation and Telomere Length in a Longitudinal Study of Boilermakers

The objectives of this study were to determine if global DNA methylation, as reflected in LINE-1 and Alu elements, is associated with telomere length and whether it modifies the rate of telomeric change. A repeated-measures longitudinal study was performed with a panel of 87 boilermaker subjects. The follow-up period was 29 months. LINE-1 and Alu methylation was determined using pyrosequencing. Leukocyte relative telomere length was assessed via real-time qPCR. Linear-mixed models were used to estimate the association between DNA methylation and telomere length. A structural equation model (SEM) was used to explore the hypothesized relationship between DNA methylation, proxies of particulate matter exposure, and telomere length at baseline. There appeared to be a positive association between both LINE-1 and Alu methylation levels, and telomere length. For every incremental increase in LINE-1 methylation, there was a statistically significant 1.0 × 10(-1) (95% CI: 4.6 × 10(-2), 1.5 × 10(-1), P < 0.01) unit increase in relative telomere length, controlling for age at baseline, current and past smoking status, work history, BMI (log kg/m(2) ) and leukocyte differentials. Furthermore, for every incremental increase in Alu methylation, there was a statistically significant 6.2 × 10(-2) (95% CI: 1.0 × 10(-2), 1.1 × 10(-1), P = 0.02) unit increase in relative telomere length. The interaction between LINE-1 methylation and follow-up time was statistically significant with an estimate -9.8 × 10(-3) (95% CI: -1.8 × 10(-2), -1.9 × 10(-3), P = 0.02); suggesting that the rate of telomeric change was modified by the degree of LINE-1 methylation. No statistically significant association was found between the cumulative PM exposure construct, with global DNA methylation and telomere length at baseline.

Multifunctional role of ATM/Tel1 kinase in genome stability: from the DNA damage response to telomere maintenance.

The mammalian protein kinase ataxia telangiectasia mutated (ATM) is a key regulator of the DNA double-strand-break response and belongs to the evolutionary conserved phosphatidylinositol-3-kinase-related protein kinases. ATM deficiency causes ataxia telangiectasia (AT), a genetic disorder that is characterized by premature aging, cerebellar neuropathy, immunodeficiency, and predisposition to cancer. AT cells show defects in the DNA damage-response pathway, cell-cycle control, and telomere maintenance and length regulation. Likewise, in Saccharomyces cerevisiae, haploid strains defective in the TEL1 gene, the ATM ortholog, show chromosomal aberrations and short telomeres. In this review, we outline the complex role of ATM/Tel1 in maintaining genomic stability through its control of numerous aspects of cellular survival. In particular, we describe how ATM/Tel1 participates in the signal transduction pathways elicited by DNA damage and in telomere homeostasis and its importance as a barrier to cancer development.

Mitochondrial DNA Copy Number and Exposure to Polycyclic Aromatic Hydrocarbons

Increased mitochondrial DNA copy number (mtDNAcn) is a biologic response to mtDNA damage and dysfunction, predictive of lung cancer risk. Polycyclic aromatic hydrocarbons (PAHs) are established lung carcinogens and may cause mitochondrial toxicity. Whether PAH exposure and PAH-related nuclear DNA (nDNA) genotoxic effects are linked with increased mtDNAcn has never been evaluated. We investigated the effect of chronic exposure to PAHs on mtDNAcn in peripheral blood lymphocytes (PBLs) of 46 Polish male noncurrent smoking coke-oven workers and 44 matched controls, who were part of a group of 94 study individuals examined in our previous work. Subjects' PAH exposure and genetic alterations were characterized through measures of internal dose (urinary 1-pyrenol), target dose [anti-benzo[a]pyrene diolepoxide (anti-BPDE)-DNA adduct], genetic instability (micronuclei and telomere length), and DNA methylation (p53 promoter) in PBLs. mtDNAcn (MT/S) was measured using a validated real-time PCR method. Workers with PAH exposure above the median value (>3 μmol 1-pyrenol/mol creatinine) showed higher mtDNAcn [geometric means (GM) of 1.06 (unadjusted) and 1.07 (age-adjusted)] compared with controls [GM 0.89 (unadjusted); 0.89 (age-adjusted); (P = 0.029 and 0.016)], as well as higher levels of genetic and chromosomal [i.e., anti-BPDE-DNA adducts (P < 0.001), micronuclei (P < 0.001), and telomere length (P = 0.053)] and epigenetic [i.e., p53 gene-specific promoter methylation (P < 0.001)] alterations in the nDNA. In the whole study population, unadjusted and age-adjusted mtDNAcn was positively correlated with 1-pyrenol (P = 0.043 and 0.032) and anti-BPDE-DNA adducts (P = 0.046 and 0.049). PAH exposure and PAH-related nDNA genotoxicity are associated with increased mtDNAcn. The present study is suggestive of potential roles of mtDNAcn in PAH-induced carcinogenesis.

A cigarette component acrolein induces accelerated senescence in human diploid fibroblast IMR-90 cells

Cigarette smoking causes various diseases, including lung cancer and cardiovascular disease, and reduces life span, though the mechanisms are not well understood. We hypothesize that smoking may cause cellular mitochondrial dysfunction and oxidative stress, leading to aging acceleration. In the present study, we tested the effects of acrolein, a major representative smoking toxicant, on human lung fibroblast IMR-90 cells with regard to cellular senescence, oxidative stress, and mitochondrial function. The results showed that subacute treatment with low dose of acrolein induces the following events compared to the control cells: cell senescence demonstrated by increases in the activity of β-galactosidase, the higher expression of p53 and p21, decreases in DNA synthesis, Sirt1 expression, and telomere length; oxidative stress occurred as the increases in the production of reactive oxygen species, DNA damage, and protein oxidation; and mitochondrial dysfunction shown as decreases in the mitochondrial membrane potential, mitochondrial biogenesis regulator PGC-1 alpha and mitochondria complex I, II, III, and V. These results suggest that acrolein may accelerate aging through the mechanism of increasing oxidative stress and mitochondrial dysfunction.

Expression and mechanism of PinX1 and telomerase activity in the carcinogenesis of esophageal epithelial cells

Esophageal tissues were collected from an esophageal carcinoma high-risk area of China and were used to detect the telomere length and the expression of human telomerase reverse transcriptase (hTERT) by immuhistochemistry and fluorescence in situ hybridization; esophageal carcinoma tissues, paired-adjacent mucosa and paired normal mucosa were obtained from resected surgical specimens of esophageal squamous cell carcinoma in order to determine telomerase activity and expression of hTERT and Pin2/TRF1 interacting protein X1 (PinX1) by telomeric repeat amplification protocol-silver staining, RT-PCR and flow cytometry (FCM). The cell proliferation and apoptosis of Eca109 cells were analyzed by FCM and MTT assay. We found that the length of telomere DNA decreased and hTERT protein expression increased in the carcinogenesis of esophageal epithelial cells; telomerase activity was significantly upregulated followed by a decrease of PinX1 expression in esophageal carcinoma compared with dysplasia and normal patients, which notably correlated with grade and lymph node metastasis. Overexpression of PinX1 inhibited cell growth, arrested cells at the G0/G1 stage and induced cell apoptosis in Eca109 cells. In addition, PinX1 overexpression significantly inhibited telomerase activity. In conclusion, the length shortening of telomere was an important characteristic in the carcinogenesis of esophageal epithelial cells, followed by increase of telomerase activity and downregulation of PinX1. Overexpression of PinX1 blocked Eca109 cell proliferation and induced cell apoptosis by downregulating telomerase activity.

Telomeric DNA length and phylogenetic relationship of Baikal and Siberian planarians (Turbellaria, Tricladida)

Dynamics of the telomeric DNA (tDNA) and the phylogeny of the Baikal and Siberian planarians have been studied based on the analysis of the 18S rDNA and beta-actin gene fragments. A relationship between tDNA and the planarians size has been demonstrated. Giant planarians with a minor exception have longer tDNA than little planarians. Phylogenetic affinity between the species that have the stretched tracks of tDNA, big size and similar habitats may indicate possible role of tDNA in the development of the indefinite regenerative capacity of planarians.

The Relationship between Leukocyte Mitochondrial DNA Copy Number and Telomere Length in Community-Dwelling Elderly Women

PurposeBoth telomere length and mitochondrial function are accepted as reflective indices of aging. Recent studies have shown that telomere dysfunction may influence impaired mitochondrial biogenesis and function. However, there has been no study regarding the possible association between telomere and mitochondrial function in humans. Therefore, the purpose of the study was to identify any relationships between mitochondrial and telomere function.MethodsThe present study included 129 community-dwelling, elderly women. The leukocyte mitochondrial DNA copy number and telomere length were measured using a quantitative real-time polymerase chain reaction method. Anthropometric measurement, biochemical blood testing, a depression screening questionnaire using a 15-question geriatric depression scale (GDS-15), and a cognitive function test using the Korean version of the mini mental state examination (K-MMSE) were performed.ResultsLeukocyte mtDNA copy number was positively associated with telomere length (r=0.39, p=<0.0001) and K-MMSE score (r=0.06, p=0.02). Additionally, leukocyte mtDNA copy number was negatively correlated with GDS-15 score (r=-0.17, p=0.04). Age (r=-0.15, p=0.09), waist circumference (r=-0.16, p=0.07), and serum ferritin level (r=-0.13, p=0.07) tended to be inversely correlated with leukocyte mtDNA copy number. With a stepwise multiple regression analysis, telomere length was found to be an independent factor associated with leukocyte mtDNA copy number after adjustment for confounding variables including age, body mass index, waist circumference, total cholesterol, HDL-cholesterol, LDL-cholesterol, triglycerides, hs-CRP, serum ferritin, HOMA-IR, K-MMSE, GDS-15, hypertension, diabetes, dyslipidemia, currently smoking, alcohol drinking, and regular exercise.ConclusionsThis study showed that leukocyte mtDNA copy number was positively correlated with leukocyte telomere length in community-dwelling elderly women. Our findings suggest that telomere function may influence mitochondrial function in humans.

Prolonged in vitro expansion partially affects phenotypic features and osteogenic potential of ovine amniotic fluid-derived mesenchymal stromal cells

Background aimsOvine amniotic fluid mesenchymal stromal cells (oAFMSCs) are an emerging alternative source of stem cells to develop pre-clinical cell replacement protocols. For tissue engineering purposes, oAFMSCs can be used either immediately after isolation or after in vitro expansion. However, detailed studies are still required to investigate the advantages and drawbacks of their in vitro expansion. MethodsThe phenotype and osteogenic differentiation potential of oAFMSCs were analyzed in relation to in vitro expansion that was carried out for 20 consecutive passages. Expanded oAFMSCs were analyzed for proliferation index, expression profiles of several surface, pluripotency-associated and HLA antigens, global DNA methylation, telomere length and karyotype. The osteogenic differentiation ability of expanded oAFMSCs was assessed by qualitative and quantitative methods. ResultsExpanded oAFMSCs reduced their proliferative activity after 10 passages and partially modified the expression of surface antigens and the intracellular distribution of pluripotency-associated markers (NANOG, SOX2 and TERT) after 20 passages. The phenotypic alteration of cultured oAFMSCs was associated with a reduction of in vitro osteogenic plasticity. In detail, after 20 passages of cellular expansion, oAFMSCs lost the ability to increase osteocalcin and decreased collagen type I messenger RNA expression. Also, a lower percentage of cells displayed intracellular calcium release after stimulation with salmon calcitonin. ConclusionsThe results presented here suggest that long-term in vitro expansion may cause significant alterations in phenotypic features and plasticity of oAFMSCs, suggesting a careful re-evaluation of in vitro cultural and temporal conditions before employing expanded oAFMSCs for therapeutic purposes.

Genetic Variations in TERT-CLPTM1L Genes and Risk of Lung Cancer in Chinese Women Nonsmokers

BackgroundThe TERT gene is the reverse transcriptase component of telomerase and is essential for the maintenance of telomere DNA length, chromosomal stability and cellular immortality. CLPTM1L gene encodes a protein linked to cisplatin resistance, and it is well conserved and express in various normal or malignant tissues, including lung.MethodsTo test this hypothesis, we genotyped for two significant SNPs TERT-rs2736098 and CLPTM1L-rs4016981 in a case-control study with 501 cancer cases and 576 cancer-free controls in Chinese nonsmoking population. Information concerning demographic and risk factors was obtained for each case and control by a trained interviewer. Gene polymorphisms were determined by TaqMan methodology.ResultsWe found that the homozygous variant genetic model of TERT gene was associated with a significantly increased risk of lung cancer with adjusted OR of 1.72(95%CI = 1.19–2.51, P = 0.004 for heterogeneity). The joint effect of TERT and CLPTM1L increased risk for lung cancer with adjusted OR is 1.31(95%CI = 1.00–1.74, P = 0.052 for heterogeneity).ConclusionGenetic variants in TERT and CLPTM1L may affect the susceptibility of lung cancer, especially adenocarcinoma in Chinese women nonsmokers.

Deletion of the major peroxiredoxin Tsa1 alters telomere length homeostasis

Reactive oxygen species (ROS) are proposed to play a major role in telomere length alterations during aging. The mechanisms by which ROS disrupt telomeres remain unclear. In Saccharomyces cerevisiae, telomere DNA consists of TG(1-3) repeats, which are maintained primarily by telomerase. Telomere length maintenance can be modulated by the expression level of telomerase subunits and telomerase activity. Additionally, telomerase-mediated telomere repeat addition is negatively modulated by the levels of telomere-bound Rap1-Rif1-Rif2 protein complex. Using a yeast strain defective in the major peroxiredoxin Tsa1 that is involved in ROS neutralization, we have investigated the effect of defective ROS detoxification on telomere DNA, telomerase, telomere-binding proteins, and telomere length. Surprisingly, the tsa1 mutant does not show significant increase in steady-state levels of oxidative DNA lesions at telomeres. The tsa1 mutant displays abnormal telomere lengthening, and reduction in oxidative exposure alleviates this phenotype. The telomere lengthening in the tsa1 cells was abolished by disruption of Est2, subtelomeric DNA, Rap1 C-terminus, or Rif2, but not by Rif1 deletion. Although telomerase expression and activity are not altered, telomere-bound Est2 is increased, while telomere-bound Rap1 is reduced in the tsa1 mutant. We propose that defective ROS scavenging can interfere with pathways that are critical in controlling telomere length homeostasis.

Abstract 110: Prospective and longitudinal evaluations of telomere length in circulating serum DNA as a noninvasive risk factor of hepatocellular carcinoma in HBV patients.

Abstract Background: In a recent retrospective case-control study, we showed that patients with HBV-related hepatocellular carcinoma (HCC) had significantly longer telomeres in circulating serum DNA than cancer-free HBV patients, indicating that circulating DNA telomere length may be a novel HCC marker. Prospective and longitudinal evidence is needed to confirm this finding. Method: In a cohort of 323 cancer-free HBV patients who had been followed for &amp;gt;1 year and did not develop HCC within 1 year, we determined the relative telomere length (RTL) in baseline serum DNA samples and conducted prospective and longitudinal analyses to assess the relationships between RTL and HCC risk. Results: In a median follow-up of 4.5 years (range, 1.1-21.1), 37 patients developed HCC. Using the median baseline RTL as cut-off, long RTL conferred a significantly increased HCC risk compared to short RTL (HR=4.93, 95% CI 2.00-12.13, P=0.0005, Plog-rank=1.7x10-6). This association remained significant when the analysis was more stringently restricted to patients who had been followed for &amp;gt;5 years and did not develop HCC within 5 years (HR=7.51, 95% CI 1.56-36.18, P=0.012, Plog-rank=0.0024), indicating that the RTL-HCC association was unlikely due to the inclusion of undiagnosed HCC patients in the cancer-free HBV cohort, thus further minimizing the effect of the reverse-causation limitation that is inherent in most previous telomere length-related retrospective studies. The area under the curve (AUC) in the time-dependent ROC analysis increased from 0.769 (demographic variables only) to 0.868 (demographic variables and baseline RTL), with a statistically significant difference (P=1.0x10-5) assessed by 10,000-time bootstrap resampling. Finally, in a nested longitudinal sub-population of 22 matched cases-control pairs with multiple samples for each patient collected at different follow-up time points, we found a significant increase in RTL from baseline to HCC diagnosis in cases (slope=0.032, P=4.0x10-5), in contrast to a RTL decrease from baseline to last follow-up in controls (slope=-0.020, P=0.026). Using a mixed-effects model for longitudinal case-control analysis, we showed that long RTL conferred a significantly increased risk of HCC (OR=4.55, 95% CI 1.91-10.89, P=0.0007). Collectively, the longitudinal data were consistent with the prospective analysis results, indicating that telomere lengthening may be an important driving factor in hepatocarcinogenesis. Conclusions: To our best knowledge, this is one of the first prospective and longitudinal evaluations of RTL in cancer risk prediction. Our data suggests that RTL of circulating serum DNA may be a novel non-invasive prospective marker of HBV-related HCC. Future studies are needed to generalize this finding in broader populations and test its clinical applicability in HCC prevention. Citation Format: Hushan Yang, Hie-won Hann, Shaogui Wan, Yinzhi Lai, Kejin Zhang, Richard Hann, Ronald E. Myers. Prospective and longitudinal evaluations of telomere length in circulating serum DNA as a noninvasive risk factor of hepatocellular carcinoma in HBV patients. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 110. doi:10.1158/1538-7445.AM2013-110

Quantification of lesions in nuclear and mitochondrial genes of Sparus aurata cryopreserved sperm

Cryopreservation is a common procedure for long-term storage of sperm in animal reproduction and is also employed in the aquaculture industry. The freezing–thawing process originates reactive oxygen species (ROS) which cause serious damage at chromatin level. Analyzing and characterizing this type of damage, especially in specific DNA regions, could be particularly interesting for germplasm banking purposes. This type of study could provide information about damage in some regions of interest or specific genes with important roles in fertilization and embryo development. This is the first report on quantification of DNA lesions in specific genes after cryopreservation in any species. We performed a specific DNA assay based on the quantitative PCR (qPCR) approach to quantify lesions generated after sperm cryopreservation in two Sparus aurata nuclear genes with important roles in embryo development (Igf1 and Gh) and two mitochondrial genes (Cytb and CoI). We tested different cryopreservation protocols using DMSO as permeable cryoprotectant, with or without BSA supplementation. The maximum number of lesions per 10kb observed after cryopreservation was 2.28 (for Igf1) and 0.8 (Gh), significantly lower than that detected for mitochondrial genes, 8.43 (Cytb) and 5.34 (CoI). A complementary analysis of DNA fragmentation (Comet assay) and telomere length measurement (qPCR) was done. The results demonstrated that the protocol used did not induce telomere shortening and that DNA integrity was very well preserved (%DNAt lower than 2.47±0.19%). The results suggest that this protocol offers a high degree of DNA protection; however the qPCR assay demonstrated different vulnerability of the DNA regions to undergoing damage during freezing/thawing processes. This study demonstrates the usefulness of using qPCR approaches to study gene-specific damage after cryopreservation, which can be an excellent complement for traditional techniques.

Telomerase-Null Survivor Screening Identifies Novel Telomere Recombination Regulators

Telomeres are protein–DNA structures found at the ends of linear chromosomes and are crucial for genome integrity. Telomeric DNA length is primarily maintained by the enzyme telomerase. Cells lacking telomerase will undergo senescence when telomeres become critically short. In Saccharomyces cerevisiae, a very small percentage of cells lacking telomerase can remain viable by lengthening telomeres via two distinct homologous recombination pathways. These “survivor” cells are classified as either Type I or Type II, with each class of survivor possessing distinct telomeric DNA structures and genetic requirements. To elucidate the regulatory pathways contributing to survivor generation, we knocked out the telomerase RNA gene TLC1 in 280 telomere-length-maintenance (TLM) gene mutants and examined telomere structures in post-senescent survivors. We uncovered new functional roles for 10 genes that affect the emerging ratio of Type I versus Type II survivors and 22 genes that are required for Type II survivor generation. We further verified that Pif1 helicase was required for Type I recombination and that the INO80 chromatin remodeling complex greatly affected the emerging frequency of Type I survivors. Finally, we found the Rad6-mediated ubiquitination pathway and the KEOPS complex were required for Type II recombination. Our data provide an independent line of evidence supporting the idea that these genes play important roles in telomere dynamics.

Identification of the Functional Domains of the Telomere Protein Rap1 in Schizosaccharomyces pombe

The telomere at the end of a linear chromosome plays crucial roles in genome stability. In the fission yeast Schizosaccharomyces pombe, the Rap1 protein, one of the central players at the telomeres, associates with multiple proteins to regulate various telomere functions, such as the maintenance of telomere DNA length, telomere end protection, maintenance of telomere heterochromatin, and telomere clustering in meiosis. The molecular bases of the interactions between Rap1 and its partners, however, remain largely unknown. Here, we describe the identification of the interaction domains of Rap1 with its partners. The Bqt1/Bqt2 complex, which is required for normal meiotic progression, Poz1, which is required for telomere length control, and Taz1, which is required for the recruitment of Rap1 to telomeres, bind to distinct domains in the C-terminal half of Rap1. Intriguingly, analyses of a series of deletion mutants for rap1 + have revealed that the long N-terminal region (1–456 a.a. [amino acids]) of Rap1 (full length: 693 a.a.) is not required for telomere DNA length control, telomere end protection, and telomere gene silencing, whereas the C-terminal region (457–693 a.a.) containing Poz1- and Taz1-binding domains plays important roles in those functions. Furthermore, the Bqt1/Bqt2- and Taz1-binding domains are essential for normal spore formation after meiosis. Our results suggest that the C-terminal half of Rap1 is critical for the primary telomere functions, whereas the N-terminal region containing the BRCT (BRCA1 C-terminus) and Myb domains, which are evolutionally conserved among the Rap1 family proteins, does not play a major role at the telomeres.

TERT polymorphisms modify the risk of acute lymphoblastic leukemia in Chinese children

Human telomerase reverse transcriptase (TERT) is essential for the maintenance of telomere DNA length, chromosomal stability and cellular immortality. We hypothesized that TERT polymorphisms are associated with risk of childhood acute lymphoblastic leukemia (ALL). We first conducted a case-control study of 570 ALL cases and 673 cancer-free controls of Chinese children, using the tagging single-nucleotide polymorphisms (tSNPs) approach. We then examined the functionality of the important SNPs. We found that TERT promoter region tSNP (rs2735940) and two intron region tSNPs (rs2736100 and rs10069690) were associated with risk of childhood ALL (P = 0.036, 0.011 and 0.022, respectively, in allele comparison). The in vitro luciferase assays in Jurkat cells showed an increased transcriptional activity of rs2735940 T allele compared with the C allele. Additional experiments with ALL bone marrow revealed that the rs2735940 T allele increased levels of the TERT messenger RNA. Notably, TERT intron 2 polymorphism (rs2736100) was associated with lower telomerase activity and longer telomeres. Our findings suggested that TERT promoter rs2735940 polymorphism may affect the TERT activity, and rs2736100 may be associated with telomere function, and thus, it is a potential biomarker for genetic susceptibility to ALL in Chinese children.

Habitual physical exercise has beneficial effects on telomere length in postmenopausal women

It has been reported that women benefit from the maintenance of telomere length by estrogen. Exercise may favorably influence telomere length, although results are inconsistent regarding the duration and type of exercise and the cell type used to measure telomere length. The purpose of this study was to investigate the relationship between habitual physical exercise and telomere length in peripheral blood mononuclear cells (PBMCs) in postmenopausal women. Postmenopausal women were chosen as study participants because they are typically estrogen deficient. This experimental-control, cross-sectional study included 44 healthy, nondiabetic, nonsmoking, postmenopausal women. Habitual exercisers and sedentary participants were matched for age and body mass index. Body weight, height, blood pressure, and waist and hip circumference were measured. Mitochondrial DNA copy number and telomere length in PBMCs were determined, and biochemical tests were performed. Habitual physical exercise was defined as combined aerobic and resistance exercise performed for at least 60 minutes per session more than three times a week for more than 12 months. The mean age of all participants was 58.11 ± 6.84 years, and participants in the habitual exercise group had been exercising more than three times per week for an average of 19.23 ± 5.15 months. Serum triglyceride levels (P = 0.01), fasting insulin concentrations (P < 0.01), and homeostasis model assessment of insulin resistance (P < 0.01) were significantly lower and high-density lipoprotein cholesterol levels (P < 0.01), circulating adiponectin (P < 0.01), mitochondrial DNA copy number (P < 0.01), and telomere length (P < 0.01) were significantly higher in the habitual exercise group than in the sedentary group. In a stepwise multiple regression analysis, habitual exercise (β = 0.522, P < 0.01) and adiponectin levels (β = 0.139, P = 0.03) were the independent factors associated with the telomere length of PBMCs in postmenopausal women. Habitual physical exercise is associated with greater telomere length in postmenopausal women. This finding suggests that habitual physical exercise in postmenopausal women may reduce telomere attrition.

Abstract A69: The association between chronic stress and telomere length in African American men.

Abstract The telomere is a region of repetitive DNA located at the ends of eukaryotic chromosomes, which protect genetic material from degradation during cellular replication. As a consequence of the inability of DNA polymerase to fully replicate the ends of the chromosome, the telomere progressively shortens as an organism ages. Telomere length in individuals is highly variable, and studies have shown that shortened telomeres are associated with poor prognoses in many diseases, including cancers and other diseases that disproportionately affect American-Americans. There is also strong evidence that environmental and behavioral factors can play an epigenetic role in telomere length homeostasis. Chronic stress is associated with shorter telomeres in women, but studies have not been explicitly done to assess the role of chronic stress in men or minorities. Though there is little evidence of a functional relationship between shortened telomeres and heightened disease states, it is clear that telomeres reflect the health of the individual. We hypothesize that telomere length can be used as a diagnostic indicator of health status, and that the average telomere length are shorter in African-American men due in part to higher levels of chronic stress. To test this hypothesis, we examined the telomere length of DNA from the peripheral blood mononuclear leukocytes of more than 40 African-American men and administered a stress survey to assess chronic stress levels. Preliminary analysis of the data indicates a potential negative association between stress and telomere length, though the results are not significant. We also observed a significant negative correlation between telomere length and body mass index. The results indicate that environmental factors can affect telomere length in African-American men, and that telomere length may be a useful health status indicator in this population. Citation Format: Samantha Simon, Wallace Sharif. The association between chronic stress and telomere length in African American men. [abstract]. In: Proceedings of the Fifth AACR Conference on the Science of Cancer Health Disparities in Racial/Ethnic Minorities and the Medically Underserved; 2012 Oct 27-30; San Diego, CA. Philadelphia (PA): AACR; Cancer Epidemiol Biomarkers Prev 2012;21(10 Suppl):Abstract nr A69.

Telomere DNA length is not predictive of embryonic reproductive potential

Telomeres are critical for genomic stability but may impact more than just meiotic and mitotic spindle function. While recently shown to prognosticate aneuploidy risk, less is known about the impact of telomere length on embryonic reproductive competence amongst euploid embryos. This study employs a powerful paired methodology to determine if telomere length impacts other aspects of reproductive competence by studying its association with clinical outcomes amongst euploid embryos.