Project description:Gut and rest of body tissue from fifth instar larvae which fed for three days a diet containing different doses of gossypol. Transcriptional profiling comparing gut and rest of body samples for three gossypol concentrations (0%, 0.016%-hormetic dose & 0.16%-detrimental dose). Hormesis is a biphasic biological response characterized by the stimulatory effect at relatively low amounts of chemical compounds otherwise known to be detrimental at higher concentrations. A hormetic response in larval growth rates has been observed in cotton-feeding insects in response to increasing concentrations of gossypol, a toxic metabolite found in the pigment glands of some Malvaceae plants. We investigated the developmental effect of gossypol in the cotton bollworm, Helicoverpa armigera, an important heliothine pest species, by exposing larvae to different doses of this metabolite in their diet. In addition, we sought to determine the underlying transcriptional responses to different gossypol doses. Larval weight gain, pupal weight and larval development time were measured in feeding experiments and a hormetic response was seen for the first two characters. On the basis of net larval weight gain responses to gossypol, three treatments, that is 0%, 0.016% and 0.16% gossypol , were selected for transcript profiling in the gut and the rest of the body in a two-color double reference design microarray experiment.

Project description:The transcriptional response of H. armigera larvae was analyzed after feeding on gossypol supplemented diet, a toxic secondary metabolite produced in cotton plants, to detect potential detoxification enzymes possibly involved in detoxification of gossypol by H. armigera. A one-color microarray-based gene expression analysis was performed with Cy3 labeled cRNA of gut and rest of the body of H. armigera larvae that fed on 0.016%, 0.16% gossypol and control diet. For each treatment and tissue four biological replicates were used.

Project description:Helicoverpa armigera gene expression on gossypol suppelemented diet, larval gut and rest of body

Project description:Heliothis virescens gene expression on gossypol suppelemented diet, larval gut and rest of body

Project description:Consumers are exposed through food intake to a cocktail of pesticides at low doses. Epidemiological evidence suggested a link between pesticide exposure and the development of the metabolic syndrome. We used a mouse model to mimic consumer exposure and assessed the metabolic consequences of a chronic dietary exposure to a cocktail of 6 commonly used pesticides (boscalid, captan, chlorpyrifos, thiofanate, thiacloprid and ziram) at non-toxic doses (acceptable daily intake ADI). One year of exposure induced body weight and adiposity gain, hepatic steatosis and glucose intolerance in males. Females did not display significant changes in body weight but displayed fasted hyperglycemia and perturbations of gut-microbiota related urinary metabolites. Exposure of mice invalidated for the constitutive androstane receptor (CAR) demonstrated that this nuclear receptor was involved in the observed sexual dimorphic response to pesticide exposure. These results demonstrate for the first time that chronic dietary exposure to a pesticide cocktail at the ADI levels induces metabolic perturbations favouring obesity and diabetic state and raise the questions of the relevance of the ADI levels of individual pesticides when present in mixture.

Project description:The imbalance of intestinal flora can affect the immune function and structural integrity of the intestinal barrier, leading to the colonization and reproduction of opportunistic pathogenic bacteria in the intestine to become the dominant flora, eventually inducing enteritis. This study aimed to investigate whether fecal microbiota transplantation (FMT) could improve the gut barrier in Nile tilapia (Oreochromis niloticus). The experiment involved administering normal saline (NS group) and fecal microbiota (FMT group) (from the negative control group (C group)) to tilapia that had been treated with oxytetracycline hydrochloride (OTC) (M group) by gavage. A total of 300 male tilapia (mean body weight 596.65 ± 47.18 g) were used, with 180 of them being fed OTC (120 mg/kg body weight/day) for 7 days to induce intestinal oxidative stress, while the rest served as the control group. After confirmation of mild chronic enteritis, the tilapia were treated in different ways.

Project description:Polybrominated diphenyl ethers (PBDEs) were used as flame-retardant additives starting 1965 and were recently withdrawn from commerce in North America and Europe. Approximately 1/5 of the total U.S. population were born when environmental concentrations of PBDE plateaued at their maximum. Accumulating evidence suggests that developmental exposures to PBDE may result in long-lasting programming of liver metabolism. In this study, CD-1 mice were exposed prenatally or neonatally to 1 mg/kg body weight of 2,2’,4,4’-tetrabromodiphenyl ether (BDE-47), and changes in liver gene histology, transcriptome, and liver-blood balance of triglycerides were analyzed in 10 month old male offspring. In both exposure groups, long-term reprogramming of lipid metabolism was observed, including increased liver triglycerides and decreased blood triglycerides, and altered expression of metabolic genes in the liver. Significant upregulation of lipid influx transporter Cd36 2.3- and 5.7-fold in pre- and neonatal exposure groups respectively was identified as a potential mechanism of blood/liver imbalance of triglycerides. Analysis of our and previously published all-genome gene expression data identified changes in expression of ribosomal protein genes as a transcriptomic signature of PBDE exposure. Further comparison of our new data and published data demonstrate that low doses (0.2 mg/kg body weight) of PBDE induce long-lasting up-regulation of ribosomal genes, suppression of Cd36 in liver and increase circulating triglycerides in blood, while moderated doses (≥ 1 mg/kg body weight) produce opposite long-lasting effects. To conclude, this study shows that an environmentally relevant developmental exposures to BDE-47 permanently alter lipid uptake and accumulation in the liver, with low and moderate doses having opposite effect on liver transcriptomics and triglyceride balance. Similar effects of pre- and neonatal exposures point at hepatocyte maturation as a sensitive window of the liver metabolism programming. These results suggest that PBDE exposure may be an important factor increasing risks of cardio-vascular disease and non-alcoholic fatty liver disease. The translational relevance of these findings for human remain to be studied.

Project description:Bariatric surgeries remain the most effective treatments for sustained weight loss and remission of type 2 diabetes. In addition to decreased body weight and improved glucose regulation, these procedures also dramatically increase secretion of several gut hormones including GLP-1. Despite these benefits, there are deleterious side effects to these procedures that include an increased incidence of iron-deficiency related anemias. The transcription factor HIF2a is heavily expressed in the duodenum and regulates the molecular machinery of iron absorption from the lumen. Lower iron levels after both gastric bypass and sleeve gastrectomy procedures occur despite dramatic upregulation of HIF2a signaling in the duodenum and are likely the result of increased hepcidin levels. Low iron diets also stimulate increased HIF2a signaling in the duodenum and produce effects similar to bariatric surgery that include reduced body weight/fat, improved glucose regulation and increased secretion of the GLP-1. Gut-specific deletion of VHL results in a constitutive upregulation of HIF2a signaling in the small intestine and produces a dramatic phenotype that includes reduced body weight/fat, improved glucose tolerance and increased GLP-1 secretion from the intestine. These data demonstrate an important role of HIF2a signaling in the duodenum to regulate multiple aspects of systemic metabolism and gut hormone secretion pointing towards critical cross-talk between the systems that regulate iron and other aspects of systemic physiology important to prevalent metabolic diseases.

Project description:Bariatric surgeries remain the most effective treatments for sustained weight loss and remission of type 2 diabetes. In addition to decreased body weight and improved glucose regulation, these procedures also dramatically increase secretion of several gut hormones including GLP-1. Despite these benefits, there are deleterious side effects to these procedures that include an increased incidence of iron-deficiency related anemias. The transcription factor HIF2a is heavily expressed in the duodenum and regulates the molecular machinery of iron absorption from the lumen. Lower iron levels after both gastric bypass and sleeve gastrectomy procedures occur despite dramatic upregulation of HIF2a signaling in the duodenum and are likely the result of increased hepcidin levels. Low iron diets also stimulate increased HIF2a signaling in the duodenum and produce effects similar to bariatric surgery that include reduced body weight/fat, improved glucose regulation and increased secretion of the GLP-1. Gut-specific deletion of VHL results in a constitutive upregulation of HIF2a signaling in the small intestine and produces a dramatic phenotype that includes reduced body weight/fat, improved glucose tolerance and increased GLP-1 secretion from the intestine. These data demonstrate an important role of HIF2a signaling in the duodenum to regulate multiple aspects of systemic metabolism and gut hormone secretion pointing towards critical cross-talk between the systems that regulate iron and other aspects of systemic physiology important to prevalent metabolic diseases.

Project description:The larvae of black soldier fly (BSF) Hermetia illucens (Diptera: Stratiomyidae), has demonstrated ability in the efficient bioconversion of organic waste into a sustainable source of food and feed, but fundamental biology remains to be discovered to exploit their full biodegradative potential. Herein, LC-MS/MS was used to assess the efficiency of eight differing extraction protocols to build foundational knowledge regarding the proteome landscape of both BSF larvae body and gut. No specific protocol was superior in capturing the BSF body and gut proteome, but each yielded complementary information to improve BSF proteome coverage. Protocol-specific functional annotation using protein level information has shown that the selection of extraction buffer can affect protein detection and their associated functional classes within the measured BSF larval gut proteome. Metaproteome analysis on BSF larvae gut has uncovered the prevalence of two bacterial phyla: actinobacteria and proteobacteria. We envisage that comparing a range of extraction protocols and investigating the proteome from the BSF body and gut separately will expand the fundamental knowledge of the BSF proteome and thereby provide translational opportunities for future research to enhance their efficiency for waste degradation and contribution to the circular economy.