RESUMO
Epidemiological studies demonstrate that maternal obesity and maternal allergy are major risk factors for asthma in offspring. However, the impact of maternal allergy and obesity on offspring lung insulin signaling and allergen responsiveness is not known. To evaluate this, allergic and non-allergic female mice were fed a high fat diet or low-fat diet from 7 weeks before pregnancy until weaning. Neonatal pups were allergen-sensitized and allergen-challenged and then were assessed for obesity, insulin signaling, and allergic inflammation. Compared to pups of non-obese non-allergic mothers, allergen-challenged pups of obese non-allergic mothers, non-obese allergic mothers and obese allergic mothers had bronchoalveolar lavage eosinophilia, with the pups of obese allergic mothers having the highest bronchoalveolar lavage eosinophilia. These pups also had lower insulin-induced lung AKT-phosphorylation, indicating a decrease in lung parenchymal insulin sensitivity. In cross-fostering experiments, allergen-challenged pups exposed to both pre- and post-natal obese allergic mothers had the highest level of BAL eosinophilia. Maternal obesity or allergy increased offspring serum allergen-specific IgE and IL-5 that was highest when the mother was both obese and allergic. Also, allergen-challenged pups exposed to both pre- and post-natal obese allergic mothers had the highest level of IL5. In summary, offspring born to obese allergic mothers have decreased lung insulin sensitivity and have increased lung allergic inflammation. Interestingly, our data also demonstrates that there is both a pregnancy and post-pregnancy aspect of maternal allergy and obesity that enhance allergen responsiveness in offspring.
RESUMO
Offspring of obese mothers suffer higher risks of type 2 diabetes due to increased adiposity and decreased ß cell function. To date, the sex-differences in offspring islet insulin secretion during early life has not been evaluated extensively, particularly prior to weaning at postnatal day 21 (P21). To determine the role of maternal obesity on offspring islet insulin secretion, C57BL/6J female dams were fed chow or western diet from 4 weeks prior to mating to induce maternal obesity. First, offspring of chow-fed and obese dams were evaluated on postnatal day 21 (P21) prior to weaning for body composition, glucose and insulin tolerance, and islet phasic insulin-secretion. Compared to same-sex controls, both male and female P21 offspring born to obese dams (MatOb) had higher body adiposity and exhibited sex-specific differences in glucose tolerance and insulin secretion. The male MatOb offspring developed the highest extent of glucose intolerance and lowest glucose-induced insulin secretion. In contrast, P21 female offspring of obese dams had unimpaired insulin secretion. Using SAX-HPLC, we found that male MatOb had a decrease in pancreatic heparan sulfate glycosaminoglycan, which is a macromolecule critical for islet health. Notably, 8-weeks-old offspring of obese dams continued to exhibit a similar pattern of sex-differences in glucose intolerance and decreased islet insulin secretion. Overall, our study suggests that maternal obesity induces sex-specific changes to pancreatic HSG in offspring and a lasting effect on offspring insulin secretion, leading to the sex-differences in glucose intolerance.