Beyond the Surface: Mapping DDE's Metabolic Footprint on Adolescent Obesity

Authors

Zhenjiang Li
Shudi Pan
Brittney O Baumert
Jiawen Carmen Chen
Jesse A Goodrich
Hongxu Wang
Sarah Rock
Justin Ryder
Damaskini Valvi
Todd Jenkins
Stephanie Sisley
Xiangping Lin
Scott M Bartell
Thomas H Inge
Stavra Xanthakos
Brooklynn McNeil
Anna R Robuck
Catherine E Mullins
Sandrah P Eckel
Rob S McConnell
Michele A La Merrill
Douglas I Walker
David V Conti
Lida Chatzi

Language

English

Publication Date

6-3-2025

Journal

Environmental Health Perspectives

DOI

10.1289/EHP16341

PMID

40460320

Abstract

Background: Bariatric surgery is an intervention for severe obesity, leading to significant weight loss and metabolic improvements. However, the release of lipophilic chemicals accumulated in adipose tissue during weight loss presents a unique clinical challenge and research opportunity. Dichlorodiphenyldichloroethylene (DDE) is a persistent organic pollutant increasingly recognized as obesogen, while the biological mechanisms through which DDE influences body mass index (BMI) and waist circumference remain underexplored.

Objectives: We aimed to identify metabolic signatures mediating the association between DDE exposure and weight loss by plasma and adipose tissue metabolomics.

Methods: We conducted a longitudinal study involving 60 adolescents with severe obesity undergoing bariatric surgery. We quantified p,p'-DDE concentrations in visceral adipose tissue collected during surgery and analyzed metabolic profiles from both adipose tissues collected at surgery and plasma samples collected at surgery, 6 months, 1 year, and 3 years postoperatively, using gas/liquid chromatography and high-resolution mass spectrometry. We used meet-in-the-middle approach coupled with a series of metabolome-wide association analyses to identify overlapping metabolite associated with both DDE exposure and weight loss outcomes.

Results: Our findings revealed that DDE concentrations in visceral adipose tissue are associated with significant alterations in metabolites locally in adipose tissue pre-surgery and systemically in plasma post-surgery. Eight plasma metabolites were significantly associated with DDE exposure over time, while 27 were associated with BMI. Notably, methylbutyroylcarnitine was identified as a potential mediator, showing a positive association with both exposure and outcome. Eight adipose tissue metabolites were associated with both DDE and longitudinal changes in plasma metabolites, suggesting an indirect pathway linking DDE and weight changes.

Discussion: These findings enhance our understanding of DDE's obesogenic effect. The involved metabolic changes could attenuate the efficacy of bariatric surgery in achieving sustained weight loss, underscoring the importance of integrating environmental health considerations into clinical practice. https://doi.org/10.1289/EHP16341.

Published Open-Access

yes

Recommended Citation

Li, Zhenjiang; Pan, Shudi; Baumert, Brittney O; et al., "Beyond the Surface: Mapping DDE's Metabolic Footprint on Adolescent Obesity" (2025). Faculty and Staff Publications. 5787.
https://digitalcommons.library.tmc.edu/baylor_docs/5787