Women undergoing metabolic surgery for weight loss see many improvements in health, including reduced adiposity and treatment of type 2 diabetes. Fertility is also improved by bariatric surgery and the number of large for gestational day births are reduced. Unfortunately, fetal demise and low birth weights are more prevalent following bariatric surgery, and children born small for gestational age are at an increased risk of obesity as adults. We have replicated these findings in a rat model of vertical sleeve gastrectomy (VSG), however, the origin of these poor outcomes in offspring remains unknown. We have previously reported a reduction in plasma T lymphocytes in pregnant female VSG rats compared to pregnant Sham surgery rats, and increased circulating Immunoglobulin G (IgG) protein. We also reported in the placenta increased mRNA levels of interleukin 1 β (IL1B), interleukin 1 receptor antagonist, and matrix metalloproteinase 9 in VSG animals compared to Shams as well as increased TUNEL positive cells indicating apoptosis. We have currently expanded our work in the placenta, finding that mRNA for B cell marker, PTPRC, and cytotoxic T cell marker, CD8A, is elevated in VSG dams. In postnatal day 21 (PND21) pups, we measure lower circulating B lymphocytes in both males and females born to VSG dams compared to pups born to Sham dams, as well as elevated total IgG, while T cells and monocytes were not altered. In the pup hypothalamus at PND21, IL1B mRNA is elevated and this persists until PND120 in males fed chow diet. Transcription of other pro‐inflammatory cytokines such as interleukin 6 and tumor necrosis factor alpha, is not altered in the hypothalamus. These data suggest that VSG surgery alters the immune system in utero and these changes may affect immune health postnatally. Future work will determine what signalling pathways transduce this immune response and if they contribute to low birth weight and metabolic syndrome in offspring. This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.
Bariatric surgery is the most effective and durable means of treating obesity and its comorbidities. Women make up 80% of those receiving weight loss surgery and they experience improvements in fertility. Unfortunately, bariatric surgery in the context of pregnancy is associated with complications, including growth restriction and small‐for‐gestational age offspring (SGA). SGA offspring have a greater risk for obesity in adulthood, although the mechanism for this SGA‐induced obesity is unknown. In a rat model of vertical sleeve gastrectomy (VSG), we previously identified reductions during pregnancy in ghrelin, a stomach‐derived hormone that increases appetite and induces growth hormone secretion. Here, we hypothesise that VSG offspring will have altered ghrelin signalling compared to offspring of Sham dams as a result of reduced in utero ghrelin. At postnatal day (PND)21, male and female offspring of dams that have previously received VSG have an increase in mRNA expression for the ghrelin receptor in the hypothalamus compared to Sham offspring, and the expression of GOAT is lower in females compared to males. Liver expression of endogenous ghrelin antagonist, LEAP2, is elevated at PND60 in VSG offspring. Expression of other genes in the growth hormone system (growth hormone‐releasing hormone and growth hormone) were not altered. Plasma levels of total ghrelin at PND21 are also not different between VSG and Sham pups. In adult pups, 1‐hour chow intake of male but not female VSG offspring given is less than Sham offspring when given 50 µg kg‐1 of exogenous ghrelin by i.p. injection. These results indicate that maternal VSG surgery has an impact on ghrelin signalling in offspring and that, as adults, male VSG offspring may be functionally less responsive to ghrelin than controls.
Elevation, standing crop, disturbance and soil fertility often emerge from studies of freshwater plant communities as the dominant environmental factors determining both species richness and species composition. Few studies in North America have investigated the relationship between these factors and species abundance (standing crop) and species composition in the context of invasion by Phragmites australis. This study explores the influence of key abiotic and biotic variables on species abundance and composition across three Lake Erie wetlands differing in hydrology and Phragmites abundance in East Harbor, Ohio, USA. Standing crop for 92 species was related to standard sediment analyses, wave exposure, distance to shoreline, elevation, light interference, species density, and Phragmites standing crop in each of 95 1 Â 1 m quadrats by using canonical correspondence analysis (CCA). Elevation (Axis I) and Phragmites standing crop-soil fertility (Axis II) explained 35.7 and 26.2%, respectively, of the variation in the speciesenvironment relationships. Wave exposure was not a primary component of the first four canonical axes. Axis I was instrumental in describing species composition, separating wet meadow species from marsh species. Axis II was inversely related to species density for both wet meadow and marsh species. These findings generally support prevailing models describing the distribution of wetland plants along environmental gradients. Two discrepancies were noted, however: (1) species density was highest in the most sheltered sites and (2) wave exposure was directly associated with Phragmites standing crop-soil fertility gradient. The structural integrity of Phragmites stems, topographic heterogeneity and differential responses to anthropogenic disturbance may contribute to departure from prevailing multivariate models. This information has direct implications for local and regional wetland managers.
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