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Arsenic-Tainted Drinking Water May Increase Diabetes Risk

Study shows arsenic reduces insulin secretion in male mice

Bethesda, Md. (January 10, 2018)—A new study reports that chronic exposure to arsenic interferes with insulin secretion in the pancreas, which may increase the risk of diabetes. The paper, published ahead of print in the American Journal of Physiology—Regulatory, Integrative and Comparative Physiology, was chosen as an APSselect article for January. 

Arsenic is an element that occurs naturally in soil, plants and water in small amounts. Long-term exposure to higher levels of environmental arsenic has been linked to cancer, heart disease, and other health problems and ingestion of large doses can be lethal. The World Health Organization estimates that millions of people around the globe—including in the U.S.—are exposed to unsafe levels of arsenic contamination in their water supply. While sub-toxic levels of arsenic may not be fatal, they can still be dangerous, and researchers suggest “the metabolic risk imposed by arsenic is likely underestimated.” 

The research team studied male mice exposed to sub-toxic levels of arsenic to simulate chronic exposure to arsenic-contaminated drinking water. When compared with a control group, the arsenic-exposed mice exhibited higher blood glucose levels due to reduced insulin secretion during the early phases of a glucose tolerance test. Insulin is the primary hormone responsible for transporting glucose out of the blood and into body tissues. Impairments in insulin secretion play a central role in the development of diabetes. Despite the reduced levels of insulin released after arsenic exposure, however, the researchers found no significant differences in inflammation of the pancreas or the number of insulin-producing cells (beta cells) in the pancreas that are known to promote the development of diabetes. Unlike in type 1 diabetes, in which insulin production is limited because beta cells are destroyed, “arsenic induces glucose intolerance through a disruption of beta-cell function that alters normal stimulus–secretion coupling,” the researchers wrote. Learning how arsenic changes the signaling for insulin secretion is important to exploring future strategies for reducing diabetes risk, the research team explained. Furthermore, these findings suggest that arsenic-induced diabetes risk may be reversible if policies are enacted to reduce environmental exposure.

Read the full article, “Arsenic exposure induces glucose intolerance and alters global energy metabolism,” published ahead of print in the American Journal of Physiology—Regulatory, Integrative and Comparative Physiology. It is highlighted as one of this month’s “best of the best” as part of the American Physiological Society’s APSselect program. Read all of this month’s selected research articles here.

NOTE TO JOURNALISTS: To schedule an interview with a member of the research team, please contact the APS Communications Office or 301-634-7209. Find more research highlights in the APS Press Room.

Physiology is the study of how molecules, cells, tissues and organs function in health and disease. Established in 1887, the American Physiological Society (APS) was the first U.S. society in the biomedical sciences field. The Society represents more than 10,500 members and publishes 15 peer-reviewed journals with a worldwide readership.



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