News Release

BPA substitute can trigger fat cell formation

Chemical used in BPA-free products exhibits similar endocrine-disrupting effects

Peer-Reviewed Publication

The Endocrine Society

Washington, DC -- Exposure to a substitute chemical often used to replace bisphenol A in plastics can encourage the formation of fat cells, according to a new study published in the Endocrine Society's journal Endocrinology.

The replacement chemical, bisphenol S, has a slightly different chemical structure than bisphenol A (BPA), a known endocrine disruptor. As of 2014, nearly 100 epidemiological studies have been published tying BPA to health problems, according to the Introductory Guide to Endocrine-disrupting Chemicals published by the Society and IPEN, a global network that supports sound chemicals management.

Concerns about BPA's health effects have encouraged some consumers to purchase food containers labeled "BPA-free". BPA-free products often contain bisphenol S (BPS) or other substitutes, but researchers have raised concerns that these replacements also interfere with the body's hormones and may pose similar threats to public health.

"Our research indicates BPS and BPA have comparable effects on fat cells and their metabolism," said the study's senior author, Ella Atlas, PhD, of Health Canada, the federal department responsible for helping Canadians maintain and improve their health. "The study is the first to show that BPS exposure can induce the formation of human fat cells."

The Canadian researchers created a human cell model to test the effects of BPS exposure. They used human cells called preadipocytes - undifferentiated cells that can develop into fat cells - taken from the hip, thigh or abdomen of female volunteers. Groups of cells were exposed to various concentrations of BPS during a 14-day period. For comparison purposes, some cells were exposed to the chemical dexamethasone instead because it triggers a known rate of fat cell formation and accumulation of lipids, or fat-like substances that collect in the blood and tissue.

Researchers found that the cells exposed to the smallest amounts of BPS as well as the cells exposed to the highest concentrations exhibited the largest accumulation of lipids, while moderate amounts had a smaller effect. Exposure to even tiny amounts of endocrine-disrupting chemicals can interfere with the functioning of hormones, since small changes in hormone levels are designed to trigger adjustments in metabolism, respiration, heart rate and other bodily functions.

"Since BPS is one of the replacement chemicals used in consumer products that are marketed as BPA-free, it is important to examine whether BPS acts as an endocrine-disrupting chemical," Atlas said. "This study shows that BPS and BPA have similar effects on fat cell formation, lipid accumulation and expression of genes important for lipid metabolism."

Other authors of the study include Jonathan G. Boucher and Shaimaa Ahmed of Health Canada's Environmental Health Science and Research Bureau in Ottawa, Canada.

The study, "Bisphenol S Induces Adipogenesis in Primary Human Preadipocytes from Female Donors," will be published online at http://press.endocrine.org/doi/10.1210/en.2015-1872, ahead of print.

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More information is available in the Endocrine Society's 2015 Scientific Statement on endocrine-disrupting chemicals.

Endocrinologists are at the core of solving the most pressing health problems of our time, from diabetes and obesity to infertility, bone health, and hormone-related cancers. The Endocrine Society is the world's oldest and largest organization of scientists devoted to hormone research and physicians who care for people with hormone-related conditions.

The Society, which is celebrating its centennial in 2016, has more than 18,000 members, including scientists, physicians, educators, nurses and students in 122 countries. To learn more about the Society and the field of endocrinology, visit our site at http://www.endocrine.org. Follow us on Twitter at @TheEndoSociety and @EndoMedia.


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