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PERFLUOROALKYL SUBSTANCES AND INCIDENT TYPE 2 DIABETES IN A MULTI-ETHNIC POPULATION: A METABOLOME-GENOME INVESTIGATION

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Principal Investigator: Valvi, Damaskini
Institute Receiving Award Icahn School Of Medicine At Mount Sinai
Location New York, NY
Grant Number R01ES033688
Funding Organization National Institute of Environmental Health Sciences
Award Funding Period 02 Sep 2022 to 30 Jun 2027
DESCRIPTION (provided by applicant): PROJECT SUMMARY Increasing prevalence of type 2 diabetes (T2D) is accompanied by racial/ethnic disparities, but etiological factors promoting the T2D epidemic and T2D disparities are not fully understood. Growing experimental evidence shows that exposures to endocrine-disrupting chemicals (EDCs), such as per- and polyfluoroalkyl substances (PFAS), promote T2D development, likely in synergy with known risk factors such as genetic variations. PFAS are ubiquitous and persistent chemicals that perturb metabolism. However, few prospective studies examined the association between PFAS and T2D risk, and those were almost exclusively in White populations. Previous studies also lacked clinically ascertained T2D diagnosis, investigated only a few of the many potentially hazardous PFAS, and did not examine potential effects of PFAS mixtures or gene–PFAS interactions. State-of- the-art integrated omics approaches can overcome these barriers to advance the field. We propose the first integrated metabolome–genome approach to (1) characterize the associations between PFAS concentrations (individual PFAS and mixtures) in prediagnostic plasma samples and incident T2D risk and potential effect modification by genetic predisposition to T2D using polygenic risk scores as an innovative solution for studying interactions, (2) identify underlying dysregulated metabolic pathways, and (3) identify metabolic signatures in prediagnostic plasma samples defined by EDC exposures and endogenous metabolites associated with T2D risk. We will perform a nested case–control study leveraging BioMe, an ongoing electronic health record-linked biobank with >55,000 participants enrolled while seeking primary care at Mount Sinai Hospital (NY) since 2007. Incident T2D cases are matched (1:1) to BioMe T2D-free controls (N = 1,700) and are of African American, Hispanic and White ancestry, with ~6 years average time between blood draw and T2D diagnosis. We will use prediagnostic plasma to measure PFAS and metabolic pathways using state-of-the-art high-resolution metabolomics (HRM) approaches. We will replicate findings among incident T2D cases and matched controls from the population-based Multiethnic Cohort (MEC) study in Los Angeles and Hawaii with extant genome data and prediagnostic plasma concentrations of PFAS and HRM measured at the same lab as BioMe samples. In contrast to prior studies, we incorporate a wide suite of legacy and emerging PFAS, exposure-mixture effects, and gene–environment interactions by leveraging state-of-the-art metabolome–genome approaches and a rigorous discovery–replication design in two unique, well-phenotyped multiethnic cohorts with prediagnostic plasma samples to identify early biomarkers associated with T2D. This research relies on a multidisciplinary team of seasoned investigators with expertise in environmental/genetic epidemiology, PFAS and T2D research, and state-of-the-art HRM, genomics, and biostatistical exposure–mixture methods. Findings will inform precision medicine approaches for T2D prevention and treatment, particularly for high-risk multiethnic populations.
Science Code(s)/Area of Science(s) Primary: 48 - Diabetes/Metabolic Syndrome
Secondary: 03 - Carcinogenesis/Cell Transformation
Publications See publications associated with this Grant.
Program Officer Thaddeus Schug
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