Neonatal tobacco smoke reduces thermogenesis capacity in brown adipose tissue in adult rats.

Maternal smoking is a risk factor for progeny obesity. We have previously shown, in a rat model of neonatal tobacco smoke exposure, a mild increase in food intake and a considerable increase in visceral adiposity in the adult offspring. Males also had secondary hyperthyroidism, while females had only higher T4. Since brown adipose tissue (BAT) hypofunction is related to obesity, here we tested the hypothesis that higher levels of thyroid hormones are not functional in BAT, suggesting a lower metabolic rate. We evaluated autonomic nerve activity in BAT and its function in adult rats that were exposed to tobacco smoke during lactation. At birth, litters were adjusted to 3 male and 3 female pups/litter. From postnatal day (PND) 3 to 21, Wistar lactating rats and their pups were divided into SE group, smoke-exposed in a cigarette smoking machine (4 times/day) and C group, exposed to filtered air. Offspring were sacrificed at PND180. Adult SE rats of both genders had lower interscapular BAT autonomic nervous system activity, with higher BAT mass but no change in morphology. BAT UCP1 and CPT1a protein levels were decreased in the SE groups of both genders. Male SE rats had lower ß3-AR, TRα1, and TRß1 expression while females showed lower PGC1α expression. BAT Dio2 mRNA and hypothalamic POMC and MC4R levels were similar between groups. Hypothalamic pAMPK level was higher in SE males and lower in SE females. Thus, neonatal cigarette smoke exposure induces lower BAT thermogenic capacity, which can be obesogenic at adulthood.

Neonatal tobacco smoke reduces thermogenesis capacity in brown adipose tissue in adult rats

Maternal smoking is a risk factor for progeny obesity. We have previously shown, in a rat model of neonatal tobacco smoke exposure, a mild increase in food intake and a considerable increase in visceral adiposity in the adult offspring. Males also had secondary hyperthyroidism, while females had only higher T4. Since brown adipose tissue (BAT) hypofunction is related to obesity, here we tested the hypothesis that higher levels of thyroid hormones are not functional in BAT, suggesting a lower metabolic rate. We evaluated autonomic nerve activity in BAT and its function in adult rats that were exposed to tobacco smoke during lactation. At birth, litters were adjusted to 3 male and 3 female pups/litter. From postnatal day (PND) 3 to 21, Wistar lactating rats and their pups were divided into SE group, smoke-exposed in a cigarette smoking machine (4 times/day) and C group, exposed to filtered air. Offspring were sacrificed at PND180. Adult SE rats of both genders had lower interscapular BAT autonomic nervous system activity, with higher BAT mass but no change in morphology. BAT UCP1 and CPT1a protein levels were decreased in the SE groups of both genders. Male SE rats had lower β3-AR, TRα1, and TRβ1 expression while females showed lower PGC1α expression. BAT Dio2 mRNA and hypothalamic POMC and MC4R levels were similar between groups. Hypothalamic pAMPK level was higher in SE males and lower in SE females. Thus, neonatal cigarette smoke exposure induces lower BAT thermogenic capacity, which can be obesogenic at adulthood.

Treatment with Ilex paraguariensis (yerba mate) aqueous solution prevents hepatic redox imbalance, elevated triglycerides, and microsteatosis in overweight adult rats that were precociously weaned

Early weaning (EW) leads to overweight, visceral obesity, hyperleptinemia, and insulin resistance in adulthood. Treatment with Ilex paraguariensis (yerba mate) improves obesity and insulin resistance in these animals. Here, we evaluated the effects of chronic treatment with yerba mate on the redox balance and liver morphology of overweight early-weaned rats. To induce EW, we wrapped the dams with bandages to interrupt milk access during the last 3 days of lactation. Control pups (C) had free access to maternal milk for the full 21 days of lactation. On postnatal day (PN) 150, EW offspring were subdivided into the EW+YM group, which received the aqueous extract of yerba mate (1 g/kg bw by gavage once a day for 30 days) and the EW group, which received water by gavage for the same period. All rats were euthanized on PN180. The EW group showed higher bound carbonyl (a marker of total protein oxidation), higher TBARS levels (a marker of lipid peroxidation), and lower superoxide dismutase (SOD) activity in liver tissue than the C group, as well as higher triglyceride content and microsteatosis. In plasma, the EW offspring showed higher TBARS levels. One month of yerba mate treatment normalized these parameters. Thus, we have shown evidence that yerba mate improved antioxidant defenses and mitigated liver dysfunction in overweight adult rats that were weaned prematurely.

Maternal nicotine exposure leads to higher liver oxidative stress and steatosis in adult rat offspring.

Early nicotine exposure causes future obesity and insulin resistance. We evaluated the long-term effect of the maternal nicotine exposure during lactation in liver oxidative status, insulin sensitivity and morphology in adult offspring. Two days after birth, osmotic minipumps were implanted in the dams: nicotine (N), 6 mg/kg/day for 14 days or saline (C). Offspring were killed at 180 days. Protein content of superoxide dismutase, glutathione peroxidase, catalase, nitrotyrosine, 4HNE, IRS1, Akt1 and PPARs were measured. MDA, bound protein carbonyl content, SOD, GPx and catalase activities were determined in liver and plasma. Hepatic morphology and triglycerides content were evaluated. Albumin and bilirubin were determined. In plasma, N offspring had higher catalase activity, and SOD/GPx ratio, albumin and bilirubin levels but lower MDA content. In liver, they presented higher MDA and 4HNE levels, bound protein carbonyl content, SOD activity but lower GPx activity. N offspring presented an increase of lipid droplet, higher triglyceride content and a trend to lower PPARα in liver despite unchanged insulin signaling pathway. Early nicotine exposure causes oxidative stress in liver at adulthood, while protect against oxidative stress at plasma level. In addition, N offspring develop liver microsteatosis, which is related to oxidative stress but not to insulin resistance.

Neonatal overfeeding causes higher adrenal catecholamine content and basal secretion and liver dysfunction in adult rats.

PURPOSE: Rats that are overfed during lactation exhibit neonatal hyperleptinemia and higher visceral adiposity, hypertension, higher liver oxidative stress and insulin resistance in the liver as adults. Previously, we demonstrated that neonatal hyperleptinemia is associated with adrenal medullary hyperfunction, hypertension and liver steatosis in adulthood. Therefore, we hypothesised that adrenal and liver functions are altered in adult obese rats that were overfed during lactation, which would underlie their hypertension and liver alterations. METHODS: The litter size was reduced from ten to three male pups on the third day of lactation until weaning (SL) to induce early overfeeding in Wistar rats. The control group had ten rats per litter (NL). Rats had free access to standard diet, and water after weaning until the rats were 180 days old. RESULTS: The SL group exhibited higher adrenal catecholamine content (absolute: +35% and relative: +40%), tyrosine hydroxylase (+31%) and DOPA decarboxylase (+90%) protein contents and basal catecholamine secretion in vitro (+57%). However, the hormones of the hypothalamic-pituitary-adrenal cortex axis were unchanged. ß3-adrenergic receptor content in visceral adipose tissue was unchanged in SL rats, but the ß2-adrenergic receptor content in the liver was lower in this group (-45%). The SL group exhibited higher glycogen and triglycerides contents in the liver (+79 and +49%, respectively), which suggested microesteatosis. CONCLUSIONS: Neonatal overfeeding led to higher adrenomedullary function, but the liver ß2-adrenergic receptor content was reduced. These results may contribute to the hepatic dysfunction characteristic of liver obesity complications.

Maternal tobacco smoke exposure during lactation inhibits catecholamine production by adrenal medullae in adult rat offspring.

Previously, we have shown that maternal smoke exposure during lactation, even when pups are not exposed, affects biochemical profiles in the offspring at weaning, eliciting lower body adiposity, hyperinsulinemia, hypocorticosteronemia and lower adrenal catecholamine content. However, the future impact of tobacco exposure is still unknown. As postnatal nicotine exposure causes short- and long-term effects on pups' biochemistry and endocrine profiles, we have now evaluated some endocrine and metabolic parameters of the adult offspring whose mothers were tobacco exposed during lactation. For this, from day 3 to 21 of lactation, rat dams were divided in: 1) SE group, cigarette smoke-exposed (1.7 mg nicotine/cigarettes for 1 h, 4 times/day, daily), without their pups, and 2) C group, exposed to air, in the same conditions. Offspring were killed at 180-days-old. Body weight and food intake were evaluated. Blood, white adipose tissue, adrenal, and liver were collected. All significant data were p<0.05. The adult SE offspring showed no change in body weight, cumulative food intake, serum hormone profile, serum lipid profile, or triglycerides content in liver. However, in adrenal gland, adult SE offspring showed lower catecholamine content ( - 50%) and lower tyrosine hydroxylase protein expression ( - 56%). Despite the hormonal alterations during lactation, tobacco smoke exposure through breast milk only programmed the adrenal medullary function at adulthood and this dysfunction can have consequence on stress response. Thus, an environment free of smoke during lactation period is essential to improve health outcomes in adult offspring.