Rayanna C Merhi scite author profile

Objective Exposure to persistent organic pollutants is consistently associated with increased diabetes risk in humans. We investigated the short- and long-term impact of transient low-dose dioxin (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. Methods Female 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 was then transferred to a 45% high-fat diet (HFD) or remained on a standard chow diet for an additional 11 weeks to assess the long-term effects of TCDD on adaptability to a metabolic stressor. To summarize, female mice were transiently exposed to TCDD and then subsequently tracked beyond when TCDD had been excreted to identify lasting metabolic effects of TCDD exposure. Results TCDD-exposed dams were hypoglycemic at birth but otherwise had normal glucose homeostasis during and post-TCDD exposure. However, TCDD-exposed dams on a chow diet were modestly heavier than controls starting 5 weeks after the last TCDD injection, and their weight gain accelerated after transitioning to a HFD. TCDD-exposed dams also had an accelerated onset of hyperglycemia, impaired glucose-induced plasma insulin levels, reduced islet size, increased MAFA -ve beta cells, and increased proinsulin accumulation following HFD feeding compared to controls. Overall, our study demonstrates that low-dose TCDD exposure during pregnancy has minimal effects on metabolism during the period of active exposure, but has detrimental long-term effects on metabolic adaptability to HFD feeding. Conclusions Our study suggests that transient low-dose TCDD exposure in female mice impairs metabolic adaptability to HFD feeding, demonstrating that dioxin exposure may be a contributing factor to obesity and diabetes pathogenesis in females.

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Female mice exposed to low-doses of dioxin during pregnancy and lactation have increased susceptibility to diet-induced obesity and diabetes

Hoyeck

Merhi

Blair

et al. 2020

Preprint

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AbstractAim/hypothesisPersistent organic pollutants have consistently been associated with increased diabetes risk in humans. However, very few studies have assessed the risk of chronic low-dose exposure to pollutants during pregnancy. We investigated the short- and long-term impact of chronic low-dose dioxin 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 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 fed HFD also had accelerated onset of hyperglycemia, dysregulated insulin secretion, reduced islet size, increased MAFA- beta cells, and impaired proinsulin processing compared to control dams on HFD.Conclusions/interpretationsOur study suggests that chronic low-dose dioxin exposure during pregnancy may contribute to the rapid rise in obesity and diabetes incidence seen worldwide.

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Fetal and neonatal dioxin exposure causes sex-specific metabolic alterations in mice

Hoyeck

Merhi

Tulloch

et al. 2023

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Epidemiological studies report associations between early-life exposure to persistent organic pollutants (POPs) and impaired metabolic homeostasis in adulthood. We investigated the impact of early-life exposure to low-dose 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD or “dioxin”) on the establishment of β-cell area during the perinatal period, as well as β-cell health and glucose homeostasis later in life. Adult female mice were injected with either corn oil (CO; vehicle control) or TCDD (20 ng/kg/day) 2x/week throughout mating, pregnancy, and lactation; offspring were thus indirectly exposed to maternal TCDD in utero and during lactation, with pollutant exposure ending at weaning. All offspring were maintained on chow diet from weaning until 12-17 weeks of age, after which a subset of CO- and TCDD-exposed offspring were transferred to a 45% high fat diet (HFD) as a metabolic stressor for an additional 10 weeks. TCDD significantly upregulated cytochrome P450 1a1 (Cyp1a1) gene expression in offspring pancreas at birth and weaning, indicating that maternal TCDD directly reaches the developing pancreas. TCDD-exposed pups were transiently hypoglycemic at birth and females were born with reduced % β-cell area, which persisted into adulthood. Early-life TCDD exposure had no persistent long-term effects on glucose homeostasis in chow-fed offspring, but when transferred to HFD, TCDD-exposed female offspring had a delayed onset of HFD-induced hyperglycemia, more pronounced HFD-induced hyperinsulinemia, and increase % PCNA+ β-cells compared to CO-exposed female offspring. This study demonstrates that early-life exposure of mice to TCDD has modest effects on metabolic health in chow-fed offspring but alters metabolic adaptability to HFD feeding in females.

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Rayanna C Merhi

Female mice exposed to low doses of dioxin during pregnancy and lactation have increased susceptibility to diet-induced obesity and diabetes

Female mice exposed to low-doses of dioxin during pregnancy and lactation have increased susceptibility to diet-induced obesity and diabetes

Fetal and neonatal dioxin exposure causes sex-specific metabolic alterations in mice

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