The aryl hydrocarbon receptor in ß-cells mediates the effects of TCDD on glucose homeostasis in mice.

ABSTRACT

OBJECTIVE: Chronic exposure to persistent organic pollutants (POPs) is associated with increased incidence of type 2 diabetes, hyperglycemia, and poor insulin secretion in humans. Dioxins and dioxin-like compounds are a broad class of POPs that exert cellular toxicity through activation of the aryl hydrocarbon receptor (AhR). We previously showed that a single high-dose injection of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD, aka dioxin; 20 µg/kg) in vivo reduced fasted and glucose-stimulated plasma insulin levels for up to 6 weeks in male and female mice. TCDD-exposed male mice were also modestly hypoglycemic and had increased insulin sensitivity, whereas TCDD-exposed females were transiently glucose intolerant. Whether these effects are driven by AhR activation in ß-cells requires investigation. METHODS: We exposed female and male ß-cell specific Ahr knockout (ßAhrKO) mice and littermate Ins1-Cre genotype controls (ßAhrWT) to a single high dose of 20 µg/kg TCDD and tracked the mice for 6 weeks. RESULTS: Under baseline conditions, deleting AhR from ß-cells caused hypoglycemia in female mice, increased insulin secretion ex vivo in female mouse islets, and promoted modest weight gain in male mice. Importantly, high-dose TCDD exposure impaired glucose homeostasis and ß-cell function in ßAhrWT mice, but these phenotypes were largely abolished in TCDD-exposed ßAhrKO mice. CONCLUSION: Our study demonstrates that AhR signaling in ß-cells is important for regulating baseline ß-cell function in female mice and energy homeostasis in male mice. We also show that ß-cell AhR signaling largely mediates the effects of TCDD on glucose homeostasis in both sexes, suggesting that the effects of TCDD on ß-cell function and health are driving metabolic phenotypes in peripheral tissues.