Young-Bum Kim 5 & patricia oliveira prada 1,2 ✉ A previous study demonstrated that a high-fat diet (HFD), administered for one-three-days, induces hypothalamic inflammation before obesity's established, and the long term affects leptin signaling/ action due to inflammation. We investigate whether exposure to particulate matter of a diameter of ≤2.5 μm (pM 2.5) in mice fed with a chow diet leads to similar metabolic effects caused by high-fat feeding. Compared to the filtered air group (FA), one-day-exposure-PM 2.5 did not affect adiposity. However, five-days-exposure-PM 2.5 increased hypothalamic microglia density, toll-like-receptor-4 (Tlr4), and the inhibitor-NF-kappa-B-kinase-epsilon (Ikbke) expression. Concurrently, fat mass, food intake (FI), and ucp1 expression in brown adipose tissue were also increased. Besides, decreased hypothalamic STAT3-phosphorylation and Pomc expression were found after twelve-weeksexposure-pM 2.5. These were accompanied by increased FI and lower energy expenditure (EE), leading to obesity, along with increased leptin and insulin levels and HOMA. Mechanistically, the deletion of Tlr4 or knockdown of the Ikbke gene in the hypothalamus was sufficient to reverse the metabolic outcomes of twelve-weeks-exposure-PM 2.5. These data demonstrated that short-term exposure-PM 2.5 increases hypothalamic inflammation, similar to a HFD. Long-term exposure-PM 2.5 is even worse, leading to leptin resistance, hyperphagia, and decreased EE. These effects are most likely due to chronic hypothalamic inflammation, which is regulated by Tlr4 and Ikbke signaling.
Air pollution is involved in several processes harmful to health. PM2,5 is the most associated with the induction of chronic inflammation. Hypothalamus regulates the energy homeostasis thought metabolic, neural and hormonal signals. Leptin signaling participates in this process, and hypothalamic inflammation may induce leptin resistance. TLR4 is an innate immune receptor capable of triggering subclinical inflammation, and one of its agonists is LPS, which is known be present in the PM2.5 composition. Polluted C57 mice had increased adiposity due to hyperphagia and lower energy expenditure, caused by leptin resistance. The TLR4 gene expression was elevated in the hypothalamus of polluted C57. The TLR4 deletion protected the animal from obesity, glucose intolerance, and leptin resistance when exposed to PM2.5. Together, these results suggest that air pollution induces hypothalamic leptin resistance by the activation of inflammatory pathways, probably involving TLR4.
Air pollution is comprised of several substances, including particulate matter (PM). Exposure to air pollution may trigger alterations in DNA methylation thus modifying gene expression patterns. This phenomenon is likely to mediate the relationship between exposure to air pollution and adverse health effects. The purpose of this study was analyzing the effects of exposure to PM 2.5 during pregnancy or lactation and whether it would cause multigenerational epigenetic alterations in the promoter region of the genes Pdx1 and NEUROG3 within mouse pancreatic islets. Our results show that maternal exposure to PM 2.5 led to an elevation in blood glucose levels within the two following generations (F1 and F2). There was also an increase in DNA methylation in the aforementioned promoter regions accompanied by reduced gene expression in generations F1 and F2 upon F0 exposure to PM 2.5 during pregnancy. These data suggest that maternal exposure to PM 2.5 from air pollution, particularly during pregnancy, may lead to a multigenerational and lifelong negative impact on glucose homeostasis mediated by an increase in DNA methylation within the promoter region of the genes Pdx1 and NEUROG3 in pancreatic islets.
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