| Popis: |
ObjectiveExposure to persistent organic pollutants is consistently associated with increased diabetes risk in humans. We investigated the short- and long-term impact of chronic low-dose dioxin (aka 2,3,7,8-tetrachlorodibenzo-p-dioxin, TCDD) exposure during pregnancy and lactation on glucose homeostasis and beta cell function in female mice, including their response to a metabolic stressor later in life.MethodsFemale mice were injected with either corn oil (CO; vehicle control) or 20 ng/kg/d TCDD 2x/week throughout mating, pregnancy, and lactation, and then tracked for 6-10 weeks after chemical exposure stopped. A subset of CO- and TCDD-exposed dams were then transferred to a 45% high fat diet (HFD) or remained on standard chow diet for an additional 11 weeks to assess long-term effects of TCDD on adaptability to a metabolic stressor.ResultsDioxin-exposed dams were hypoglycemic at birth but otherwise had normal glucose homeostasis during and post-dioxin exposure. However, dioxin-exposed dams on chow diet were modestly heavier than controls starting 5 weeks after the last dioxin injection, and their weight gain accelerated after transitioning to a HFD. Dioxin-exposed dams also had accelerated onset of hyperglycemia, dysregulated insulin secretion, reduced islet size, increased MAFA-beta cells, and increased proinsulin accumulation following HFD feeding compared to control dams.ConclusionsOur mouse model suggests that chronic low-dose dioxin exposure may be a contributing factor to obesity and diabetes pathogenesis in females. |
