Genome-wide Scan Identifies Novel Genetic Loci Regulating Salivary Metabolite Levels

Overview

Journal Hum Mol Genet

Specialties Genetics
Molecular Biology

Date 2020 Jan 22

PMID 31960908

Citations 11

Authors

Abhishek Nag

Yuko Kurushima

Ruth C E Bowyer

Philippa M Wells

Stefan Weiss

Maik Pietzner

Thomas Kocher

Johannes Raffler

Uwe Volker

Massimo Mangino

Timothy D Spector

Michael V Milburn

Gabi Kastenmuller

Robert P Mohney

Karsten Suhre

Cristina Menni

Claire J Steves

Affiliations

Soon will be listed here.

Abstract

Saliva, as a biofluid, is inexpensive and non-invasive to obtain, and provides a vital tool to investigate oral health and its interaction with systemic health conditions. There is growing interest in salivary biomarkers for systemic diseases, notably cardiovascular disease. Whereas hundreds of genetic loci have been shown to be involved in the regulation of blood metabolites, leading to significant insights into the pathogenesis of complex human diseases, little is known about the impact of host genetics on salivary metabolites. Here we report the first genome-wide association study exploring 476 salivary metabolites in 1419 subjects from the TwinsUK cohort (discovery phase), followed by replication in the Study of Health in Pomerania (SHIP-2) cohort. A total of 14 distinct locus-metabolite associations were identified in the discovery phase, most of which were replicated in SHIP-2. While only a limited number of the loci that are known to regulate blood metabolites were also associated with salivary metabolites in our study, we identified several novel saliva-specific locus-metabolite associations, including associations for the AGMAT (with the metabolites 4-guanidinobutanoate and beta-guanidinopropanoate), ATP13A5 (with the metabolite creatinine) and DPYS (with the metabolites 3-ureidopropionate and 3-ureidoisobutyrate) loci. Our study suggests that there may be regulatory pathways of particular relevance to the salivary metabolome. In addition, some of our findings may have clinical significance, such as the utility of the pyrimidine (uracil) degradation metabolites in predicting 5-fluorouracil toxicity and the role of the agmatine pathway metabolites as biomarkers of oral health.

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