Project description:The study evaluates the effect of Lactiplantibacillus plantarum IMC 510® supplementation on anthropometric and biochemical parameters, GM composition and gastrointestinal and general symptoms of overweight/obese subjects.

Project description:Obesity, a major risk factor for chronic diseases, is related to dsyfunctional adipose tissue signaling. First human trials suggest benefits of intermittent calorie restriction diet (ICR) in chronic disease prevention that may exceed those of continuous calorie restriction diet (CCR), even at equal net calorie intake. The effect of intermittent calorie restriction on adipose tissue signaling has not been investigated to date. Thus we initiated a randomized controlled trial to analyze the effect of ICR (eu-caloric diet on five days and two days per week with energy restriction of 75%), CCR (daily energy restriction of 20%) and a control group on subcutaneous adipose tissue (SAT) gene expression. 150 overweight or obese non-smoking adults (50 per group, 50% women) were randomly asiged to one of the study arms. SAT biopsies were taken before and after the 12 week intervention phase.

Project description:The mechanisms responsible for weight loss-induced improvement in insulin sensitivity are partially understood. Greater insight can now be achieved through deep phenotyping and data integration. Here, we used an integrative approach to investigate associations between changes in insulin sensitivity and variations in lifestyle factors (diet and physical activity), subcutaneous adipose tissue (sAT) gene expression, metabolomics in serum, urine and feces, and gut microbiota composition after a 6-week calorie restriction period in overweight and obese adults

Project description:In order to explore the effect of hypertension and overweight/obesity on human visceral adipose tissue transcriptome, we collected three visceral adipose tissue samples from normal weight individuals (non hypertension), overweight/obese individuals (non hypertension) and overweight/obese individuals with hypertension, and sequenced their transcriptome.

Project description:The very low-calorie ketogenic diet (VLCKD) has emerged as an effective weight loss strategy for obese patients. It significantly reduces visceral adipose tissue (VAT), which is cardinal for mitigating metabolic complications associated with obesity. By promoting rapid weight loss, VLCKD helps to decrease insulin resistance and alleviate inflammation. Chronic liver inflammation can progress to severe conditions like non-alcoholic steatohepatitis and fibrosis, potentially resulting in liver failure and hepatocellular carcinoma. Transient elastography (FibroScan) is a known technique for assessing hepatic steatosis, with FIB E levels below 8kPa indicating low fibrosis risk (LR), while levels above 8kPa suggest a higher risk of chronic liver disease (IHR). Prevention of fibrosis includes lifestyle changes such as a healthy diet and increased physical activity. Traditional low-calorie diets often fail to achieve significant weight loss; hence, the very low-calorie ketogenic diet (VLCKD) is proposed as an effective strategy to decrease VAT and insulin resistance. Recent studies indicate extracellular vesicles (EVs), particularly small EVs (sEVs), play a crucial role in liver fibrosis by activating hepatic stellate cells. Our group identified that sEVs, to be involved in liver degeneration binded to the fibrosis. The aim of this study is to investigate the role of sEVs in 60 obese adults classified as LR and IHR based on FIB E score, enrolled in an 8-week VLCKD weight loss program. Remarkably, the cellular reactivity to sEVs derived from these patients in the early production and modulation of certain fibrosis markers, such as MMPs, and stress fibres Vimentin, and α-Actin was studied.

Project description:RATIONALE: Calories and physical exercise may affect the risk of developing cancer. It is not yet known whether a low-calorie diet and/or physical activity program is effective in preventing cancer in participants at increased risk of developing colorectal cancer. PURPOSE: This randomized clinical trial is studying diet and physical activity in healthy overweight, obese, or inactive participants at risk of developing colorectal cancer.

Project description:The aim of this study was to analyze gene response to a 10-week dietary intervention for weight loss in peripheral blood mononuclear cells of overweight/obese male children. PBMCs were obtained from 12 overweight/obese boys for RNA extraction and hybridization on Affymetrix microarrays. We performed the microarray analysis at baseline and after a weight loss intervention program in a total of 24 samples. They were distributed by dietary response as high and low responders.

Project description:Gut microbiome research is rapidly moving towards the functional characterization of the microbiota by means of shotgun meta-omics. Here, we selected a cohort of healthy subjects from an indigenous and monitored Sardinian population to analyze their gut microbiota using both shotgun metagenomics and shotgun metaproteomics. We found a considerable divergence between genetic potential and functional activity of the human healthy gut microbiota, in spite of a quite comparable taxonomic structure revealed by the two approaches. Investigation of inter-individual variability of taxonomic features revealed Bacteroides and Akkermansia as remarkably conserved and variable in abundance within the population, respectively. Firmicutes-driven butyrogenesis (mainly due to Faecalibacterium spp.) was shown to be the functional activity with the higher expression rate and the lower inter-individual variability in the study cohort, highlighting the key importance of the biosynthesis of this microbial by-product for the gut homeostasis. The taxon-specific contribution to functional activities and metabolic tasks was also examined, giving insights into the peculiar role of several gut microbiota members in carbohydrate metabolism (including polysaccharide degradation, glycan transport, glycolysis and short-chain fatty acid production). In conclusion, our results provide useful indications regarding the main functions actively exerted by the gut microbiota members of a healthy human cohort, and support metaproteomics as a valuable approach to investigate the functional role of the gut microbiota in health and disease.

Project description:High-calorie diets lead hepatic steatosis and to the development of non-alcoholic fatty liver disease (NAFLD), which can evolve over many years into the inflammatory form non-alcoholic steatohepatits (NASH) posing a risk for the development of hepatocellular carcinoma (HCC). Due to the diet and the liver alteration, the axis between liver and gut is disturbed, resulting in gut microbiome alterations. Consequently, detecting these gut microbiome alterations repre-sents a promising strategy for early NASH and HCC detection. We analyzed medical parame-ters and the fecal metaproteome of 19 healthy controls, 32 NASH, and 29 HCC patients target-ing the discovery of diagnostic biomarkers. Here, NASH and HCC resulted in increased in-flammation status and shifts within the composition of the gut microbiome. Increased abun-dance of kielin/chordin, E3 ubiquitin ligase, and nucleophosmin 1 represented valuable fecal biomarkers indicating disease-related changes in the liver. Whereas a single biomarker failed to separate NASH and HCC, machine learning-based classification algorithms provided 0.86% accuracy in distinguishing between controls, NASH, and HCC. Conclusion: Fecal metaproteomics enables early detection of NASH and HCC by providing single biomarkers and ma-chine learning-based metaprotein panels.

Project description:The impact of therapeutic interventions on the human gut microbiota (GM) is a clinical issue of paramount interest given the strong interconnection between microbial dynamics and human health. Orally administered antibiotics are known to reduce GM biomass and modify GM taxonomic profile. However, the impact of antimicrobial therapies on GM functions and biochemical pathways has scarcely been studied. Here, we characterized the fecal metaproteome of 10 Helicobacter pylori-infected patients before (T0) and after 10 days (T1) of a successful quadruple therapy (bismuth, tetracycline, metronidazole, and rabeprazole) and 30 days after therapy cessation (T2), to investigate how GM and host functions change during the eradication and healing processes. At T1, the abundance ratio between microbial and host proteins was reversed compared with that at T0 and T2. Several pathobionts (including Klebsiella, Proteus, Enterococcus, Muribaculum, and Enterocloster) were increased at T1. Therapy reshaped the relative contributions of the functions required to produce acetate, propionate, and butyrate. Proteins related to the uptake and processing of complex glycans were increased. Microbial cross-feeding with sialic acid, fucose, and rhamnose was enhanced, whereas hydrogen sulfide production was reduced. Finally, microbial proteins involved in antibiotic resistance and inflammation were more abundant after therapy. Moreover, a reduction in host proteins with known roles in inflammation and H. pylori-mediated carcinogenesis was observed. In conclusion, our results support the use of metaproteomics to monitor drug-induced remodeling of GM and host functions, opening the way for investigating new antimicrobial therapies aimed at preserving gut environmental homeostasis.