Your search keyword '"Martens, Dries S."' showing total 5 results

1. Sex-specific associations between telomere length and candidate miRNA expression in placenta

Author

Tsamou, Maria, Martens, Dries S., Cox, Bianca, Madhloum, Narjes, Vrijens, Karen, and Nawrot, Tim S.

Published

2018

2. Telomere tracking from birth to adulthood and residential traffic exposure.

Author

Bijnens, Esmée M., Zeegers, Maurice P., Derom, Catherine, Martens, Dries S., Gielen, Marij, Hageman, Geja J., Plusquin, Michelle, Thiery, Evert, Vlietinck, Robert, and Nawrot, Tim S.

Subjects

TELOMERES, HUMAN life cycle, PRENATAL exposure delayed effects, INTERGENERATIONAL households, MATERNAL exposure, AGING, AUTOMOBILES, CELLULAR aging, COMPARATIVE studies, ECOLOGY, LONGITUDINAL method, RESEARCH methodology, MEDICAL cooperation, ORAL mucosa, PLACENTA, RESEARCH, RESEARCH funding, TWINS, EVALUATION research

Abstract

Background: Telomere attrition is extremely rapid during the first years of life, while lifestyle during adulthood exerts a minor impact. This suggests that early life is an important period in the determination of telomere length. We investigated the importance of the early-life environment on both telomere tracking and adult telomere length.Methods: Among 184 twins of the East Flanders Prospective Twin Survey, telomere length in placental tissue and in buccal cells in young adulthood was measured. Residential addresses at birth and in young adulthood were geocoded and residential traffic and greenness exposure was determined.Results: We investigated individual telomere tracking from birth over a 20 year period (mean age (SD), 22.6 (3.1) years) in association with residential exposure to traffic and greenness. Telomere length in placental tissue and in buccal cells in young adulthood correlated positively (r = 0.31, P < 0.0001). Persons with higher placental telomere length at birth were more likely to have a stronger downward shift in telomere ranking over life (P < 0.0001). Maternal residential traffic exposure correlated inversely with telomere length at birth. Independent of birth placental telomere length, telomere ranking between birth and young adulthood was negatively and significantly associated with residential traffic exposure at the birth address, while traffic exposure at the residential address at adult age was not associated with telomere length.Conclusions: Longitudinal evidence of telomere length tracking from birth to adulthood shows inverse associations of residential traffic exposure in association with telomere length at birth as well as accelerated telomere shortening in the first two decades of life. [ABSTRACT FROM AUTHOR]

Published

2017

3. Maternal pre-pregnancy body mass index and newborn telomere length.

Author

Martens, Dries S., Plusquin, Michelle, Gyselaers, Wilfried, De Vivo, Immaculata, and Nawrot, Tim S.

Subjects

*TELOMERES, *NEWBORN infants, *OBESITY, *PREGNANCY, *BODY mass index

Abstract

Background: Newborn telomere length sets telomere length for later life. At birth, telomere length is highly variable among newborns and the environmental factors during in utero life for this observation remain largely unidentified. Obesity during pregnancy might reflect an adverse nutritional status affecting pregnancy and offspring outcomes, but the association of maternal pre-pregnancy body mass index (BMI) with newborn telomere length, as a mechanism of maternal obesity, on the next generation has not been addressed. Methods: Average relative telomere lengths were measured in cord blood (n = 743) and placental tissue (n = 702) samples using a quantitative real-time PCR method from newborns from the ENVIRONAGE birth cohort in Belgium. By using univariate and multivariable adjusted linear regression models we addressed the associations between pre-pregnancy BMI and cord blood and placental telomere lengths. Results: Maternal age was 29.1 years (range, 17-44) and mean (SD) pre-pregnancy BMI was 24.1 (4.1) kg/m². Decline in newborn telomere length occurred in parallel with higher maternal pre-pregnancy BMI. Independent of maternal and paternal age at birth, maternal education, gestational age, newborn gender, ethnicity, birthweight, maternal smoking status, parity, cesarean section, and pregnancy complications, each kg/m² increase in pre-pregnancy BMI was associated with a -0.50 % (95 % CI, -0.83 to -0.17 %; P = 0.003) shorter cord blood telomere length and a -0.66 % (95 % CI, -1.06 to -0.25 %; P = 0.002) shorter placental telomere length. Conclusions: Maternal pre-pregnancy BMI is associated with shorter newborn telomere lengths as reflected by cord blood and placental telomeres. These findings support the benefits of a pre-pregnancy healthy weight for promoting molecular longevity from early life onwards. [ABSTRACT FROM AUTHOR]

Published

2016

4. A role for telomere length and chromosomal damage in idiopathic pulmonary fibrosis.

Author

McDonough, John E., Martens, Dries S., Tanabe, Naoya, Ahangari, Farida, Verleden, Stijn E., Maes, Karen, Verleden, Geert M., Kaminski, Naftali, Hogg, James C., Nawrot, Tim S., Wuyts, Wim A., and Vanaudenaerde, Bart M.

Subjects

*TELOMERES, *LUNG diseases, *DNA damage, *PULMONARY fibrosis, *IDIOPATHIC pulmonary fibrosis

Abstract

Background: Idiopathic pulmonary fibrosis is a fatal lung disease characterized by a progressive formation of fibroblastic foci in the interstitium. This disease is strongly associated with telomere dysfunction but the extent of telomere shortening and consequent chromosomal damage within IPF lungs and with regional disease severity remains unknown.Methods: Explanted IPF lungs (n = 10) were collected from transplant surgeries with six samples per lung analysed to capture the regional heterogeneity ranging from mild to severe disease. Non-used donor lungs (n = 6) were collected as "healthy" controls. Structural changes related to disease severity (microCT surface density), relative telomere length (real-time qPCR), and quantitative histology of chromosomal damage (γ-H2A.X) and extracellular matrix (elastin, total collagen, collagen 1, and collagen 3) were measured. A multivariate linear mixed-effects model controlling for subject was used to identify association of disease severity or fibrotic markers with telomere length and chromosomal damage.Results: We observed shorter telomere length (p = 0.001) and increased chromosomal damage (p = 0.018) in IPF lungs compared to controls. In IPF lungs, telomere length was associated with total collagen (p < 0.001) but not with structural changes of disease severity. Chromosomal damage was positively associated with increased elastin (p = 0.006) and negatively with structural disease severity (p = 0.046). Extensive γ-H2A.X staining was also present in airway epithelial cells.Conclusions: Telomere length and chromosomal damage are involved in IPF with regional variation in telomere length and chromosomal damage associated with pathological changes in tissue structure and the extracellular matrix. [ABSTRACT FROM AUTHOR]

Published

2018

5. The aging lung: tissue telomere shortening in health and disease.

Author

Everaerts, Stephanie, Lammertyn, Elise J., Martens, Dries S., De Sadeleer, Laurens J., Maes, Karen, van Batenburg, Aernoud A., Goldschmeding, Roel, van Moorsel, Coline H. M., Dupont, Lieven J., Wuyts, Wim A., Vos, Robin, Gayan-Ramirez, Ghislaine, Kaminski, Naftali, Hogg, James C., Janssens, Wim, Verleden, Geert M., Nawrot, Tim S., Verleden, Stijn E., McDonough, John E., and Vanaudenaerde, Bart M.

Subjects

CYSTIC fibrosis, TELOMERES, OBSTRUCTIVE lung diseases, HYPERSENSITIVITY pneumonitis, CELLULAR aging, CRYPTOGENIC organizing pneumonia, HOMOGRAFTS

Abstract

Background: Telomere shortening has been associated with several lung diseases. However, telomere length is generally measured in peripheral blood leucocytes rather than in lung tissue, where disease occurs. Consequently, telomere dynamics have not been established for the normal human lung nor for diseased lung tissue. We hypothesized an age- and disease-dependent shortening of lung tissue telomeres.Methods: At time of (re-)transplantation or autopsy, 70 explant lungs were collected: from unused donors (normal, n = 13) and patients with cystic fibrosis (CF, n = 12), chronic obstructive pulmonary disease (COPD, n = 11), chronic hypersensitivity pneumonitis (cHP, n = 9), bronchiolitis obliterans syndrome (BOS) after prior transplantation (n = 11) and restrictive allograft syndrome (RAS) after prior transplantation (n = 14). Lungs were inflated, frozen and then scanned using CT. Four tissue cores from distinct lung regions were sampled for analysis. Disease severity was evaluated using CT and micro CT imaging. DNA was extracted from the samples and average relative telomere length (RTL) was determined using real-time qPCR.Results: The normal lungs showed a decrease in RTL with age (p < 0.0001). Of the diseased lungs, only BOS and RAS showed significant RTL decrease with increasing lung age (p = 0.0220 and p = 0.0272 respectively). Furthermore, we found that RTL showed considerable variability between samples within both normal and diseased lungs. cHP, BOS and RAS lungs had significant shorter RTL in comparison with normal lungs, after adjustment for lung age, sex and BMI (p < 0.0001, p = 0.0051 and p = 0.0301 respectively). When investigating the relation between RTL and regional disease severity in CF, cHP and RAS, no association was found.Conclusion: These results show a progressive decline in telomere length with age in normal, BOS and RAS lungs. cHP, BOS and RAS lungs demonstrated shorter RTL compared to normal lungs. Lung tissue RTL does not associate with regional disease severity within the lung. Therefore, tissue RTL does not seem to fully reflect peripheral blood telomere length. [ABSTRACT FROM AUTHOR]

Published

2018