Project description:miRNA profiles were investigated in severely obese individuals before and after a weight loss induced by diet and moderate exercise.
Project description:Skeletal muscle (rectus femoris) gene expression was analyzed from diet-resistant and diet-sensitive obese women undergoing clinically supervised weight-loss at a weight management clinic The goal of the study was to characterize global gene expression profiles in skeletal muscle from obese women, prior to their participation in a clinically supervised, low-calorie diet, weight management program. Following entry into the weight-loss program, subjects can be categorized as being 'diet-sensitive' or 'diet-resistant' depending on the rates of weight loss achieved. In the current study, we selected an equal number of diet-sensitive and diet-resistant subjects for comparative expression profiling
Project description:We have carried out whole-genome expression profiling of whole blood from obese subjects, defined as obese diet-sensitive and obese diet-resistant, and well matched lean individuals. The diet-sensitive or diet-resistant status refers to the different rates of weight loss observed in the two groups on a low-calorie diet regimen. Bioinformatic analysis revealed alterations in transcription in key pathways that are consistent with impaired capacity for fatty acid oxidation driven mitochondrial ATP synthesis in obese subjects who are resistant to weight loss.
Project description:Lipedema is a lipodystrophic disease characterized by marked increases in lower-body subcutaneous adipose tissue, anecdotally reported to: i) increase inflammation and fibrosis and impair microvascular and lymphatic circulation in the affected adipose tissue, ii) reduce risk of developing obesity-related cardiometabolic abnormalities; and iii) be resistant to diet-induced weight loss. To further our understanding of lipedema, we examined body composition, metabolic health and adipose tissue bology in women with obesity and lipedema (Obese-LIP) at baseline and following ~9% diet-induced weight loss. At baseline, people with Obese-LIP had ~23% greater leg fat mass, ~11% lower android-to-gynoid ratio and ~54% greater insulin sensitivity compared to women matched on age, body mass index and whole-body fat mass. In the Obese-LIP group, total and proinflammatory macrophage content and expression of inflammation and fibrosis-related genes were greater while lymph/angiogenesis-related genes were lower in subcutaneous femoral compared to abdominal adipose tissue. Diet-induced weight loss improved insulin sensitivity and decreased total fat mass due to similar reductions in abdominal and leg fat masses, with minimal effect on markers of adipose tissue inflammation/fibrosis and lymph/angiogenesis. Our study provides important insights into the pathophysiology of lipedema and suggests diet-induced weight loss should be the cornerstone therapy in people with Obese-LIP.
Project description:We have carried out whole-genome expression profiling of whole blood from obese subjects, defined as obese diet-sensitive and obese diet-resistant, and well matched lean individuals. The diet-sensitive or diet-resistant status refers to the different rates of weight loss observed in the two groups on a low-calorie diet regimen. Bioinformatic analysis revealed alterations in transcription in key pathways that are consistent with impaired capacity for fatty acid oxidation driven mitochondrial ATP synthesis in obese subjects who are resistant to weight loss. A total of 80 samples are analyzed. This consists of 20 lean subjects studied at one timepoint and 20 obese subjects (10 diet-sensitive and 10 diet-resistant) studied at 3 timepoints during caloric restriction (day of entry into program, week 3 into the program and week 6 into the program)
Project description:Allulose has been shown to moderate obese related dysmetabolism. In previous study, we found that allulose increased the muscle weight in diet-induced obese mice. It is there for hypothesized that allulose alleviated sarcopenia. The 12 month old mice were fed AIN93G with allulose. Allulose supplementation improved the muscle loss in aging mice.
Project description:lean control, obese, and formerly obese C57BL6N mice which underwent weight loss via low-fat diet or verticle sleeve gastrectomy were injected with E0771 cells and tumor growth was monitored
Project description:lean control, obese, and formerly obese C57BL6N mice which underwent weight loss via low-fat diet or verticle sleeve gastrectomy were injected with E0771 cells and tumor growth was monitored
