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Biomolecular Markers Within the Core Axis of Aging and Particulate Air Pollution Exposure in the Elderly: A Cross-Sectional Study.

Authors: Nicky N. Pieters, Bram G BG. Janssen, Harrie H. Dewitte, Bianca B. Cox, Ann A. Cuypers, Wouter W. Lefebvre, Karen K. Smeets, Charlotte C. Vanpoucke, Michelle M. Plusquin, Tim S TS. Nawrot
Published: 12/15/2015, Environmental health perspectives

Background

Telomere length and mitochondrial DNA (mtDNA) content are markers of aging and aging-related diseases. There is inconclusive evidence concerning the mechanistic effects of airborne particulate matter (PM) exposure on biomolecular markers of ageing OBJECTIVE: The present study examines the association between short- and long-term PM exposure with telomere length and mtDNA content in elderly and investigates to what extend this association is mediated by expression of genes playing a role in the telomere-mitochondrial axis of aging.

Methods

Among 166 non-smoking elderly, we used qPCR to measure telomere length and mtDNA content in leukocytes, and RNA from whole blood to measure expression of SIRT1, TP53, PPARGC1A, PPARGC1B, NRF1 and NFE2L. Associations between PM exposure and markers of aging were estimated using multivariable linear regression models adjusted for gender, age, BMI, socio-economic status, statin use, past smoking status, white blood cell count and percentage of neutrophils. Mediation analysis was performed to explore the role of age-related markers between the association of PM exposure and outcome. Annual PM2.5 exposure was calculated for each participant's home address using a high resolution spatial-temporal interpolation model.

Results

Annual PM2.5 concentrations ranged from 15 to 23 µg/m(3). A 5 µg/m(3) increment in annual PM2.5 concentration was associated with a relative decrease of 16.8% (95% CI: -26.0%, -7.4%, p=0.0005) in telomere length and a relative decrease of 25.7% (95% CI: -35.2%, -16.2%, p<0.0001) in mtDNA content. Assuming causality, results of the mediation analysis indicated that SIRT1 mediated 19.5% and 22.5% of the estimated effect of PM2.5 exposure on telomere length and mtDNA content, respectively.

Conclusions

Our findings suggest that the estimated effects of PM2.5 exposure on the telomere-mitochondrial axis of aging may play an important role in chronic health effects of PM2.5.

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