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다층 라이브러리

Publication

Sports and Exercise Medicine Lab.

Organophosphate insecticide exposure and telomere length in US adults

Jeongwon Ock, Junghoon Kim, and Yoon-Hyeong Choi

Science of the Total Environment (2020) 709:135990 [IF=9.8]

Abstract

Background
Organophosphate insecticides have been widely used for >30 years, and are reported to be associated with various age-related chronic diseases. While shortening of telomere length has been considered as a marker of cellular aging, only a few small studies have been conducted to examine any difference of telomere length in workers exposed to organophosphates versus controls. Epidemiologic studies of the dose-response associations between environmental organophosphate exposure and telomere length in the general population are few.

Objective
This study aimed to evaluate the association between levels of organophosphate insecticide exposure and telomere length in the general population.

Methods
We analyzed data for 1724 participants aged 20 years or more from the National Health and Nutrition Examination Survey 1999–2002. Organophosphate insecticide exposure was estimated using measures of urinary concentrations for 3,5,6-trichloro-2-pyridinol (TCPY) and six non-specific dialkyl phosphate metabolites, e.g., diethyl thiophosphate (DETP). Multiple linear regression was conducted to assess the association between organophosphate exposure and telomere length.

Results
After controlling for sociodemographic and physical factors and urinary creatinine, participants in the second quartile for urinary TCPY had 0.06 (95% CI: 0.02–0.10) T/S ratio shorter telomere length than those in the lowest quartile. By contrast, participants in the second and third tertiles of urinary DETP had 0.08 (95% CI: 0.02–0.14) and 0.06 (95% CI, 0.01–0.11) T/S ratio longer telomere length than those in the lowest tertile. For other five metabolites, there was no association with telomere length.

Conclusions
Levels of environmental exposures to certain organophosphate insecticides may be linked to altered telomere length in adults in the general population. Although our findings may need to be replicated, we provide the first evidence that environmental exposure to organophosphates may contribute to the alteration of telomere length, which is potentially related to biological aging and to the development of various chronic diseases.

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