Project description:Obesity is a strong risk factor for the development of type 2 diabetes. We have previously reported that in adipose tissue of obese (ob/ob) mice, the expression of adipogenic genes is decreased. When made genetically obese, the BTBR mouse strain is diabetes susceptible and the C57BL/6J (B6) strain is diabetes resistant. We used DNA microarrays and RT-PCR to compare the gene expression in BTBR-ob/ob versus B6-ob/ob mice in adipose tissue, liver, skeletal muscle, and pancreatic islets. Our results show: 1) there is an increased expression of genes involved in inflammation in adipose tissue of diabetic mice; 2) lipogenic gene expression was lower in adipose tissue of diabetes-susceptible mice, and it continued to decrease with the development of diabetes, compared with diabetes-resistant obese mice; 3) hepatic expression of lipogenic enzymes was increased and the hepatic triglyceride content was greatly elevated in diabetes-resistant obese mice; 4) hepatic expression of gluconeogenic genes was suppressed at the prediabetic stage but not at the onset of diabetes; and 5) genes normally not expressed in skeletal muscle and pancreatic islets were expressed in these tissues in the diabetic mice. We propose that increased hepatic lipogenic capacity protects the B6-ob/ob mice from the development of type 2 diabetes. Diabetes 52:688–700, 2003 Keywords: Genetic modifications

Project description:Obesity is a strong risk factor for the development of type 2 diabetes. We have previously reported that in adipose tissue of obese (ob/ob) mice, the expression of adipogenic genes is decreased. When made genetically obese, the BTBR mouse strain is diabetes susceptible and the C57BL/6J (B6) strain is diabetes resistant. We used DNA microarrays and RT-PCR to compare the gene expression in BTBR-ob/ob versus B6-ob/ob mice in adipose tissue, liver, skeletal muscle, and pancreatic islets. Our results show: 1) there is an increased expression of genes involved in inflammation in adipose tissue of diabetic mice; 2) lipogenic gene expression was lower in adipose tissue of diabetes-susceptible mice, and it continued to decrease with the development of diabetes, compared with diabetes-resistant obese mice; 3) hepatic expression of lipogenic enzymes was increased and the hepatic triglyceride content was greatly elevated in diabetes-resistant obese mice; 4) hepatic expression of gluconeogenic genes was suppressed at the prediabetic stage but not at the onset of diabetes; and 5) genes normally not expressed in skeletal muscle and pancreatic islets were expressed in these tissues in the diabetic mice. We propose that increased hepatic lipogenic capacity protects the B6-ob/ob mice from the development of type 2 diabetes. Diabetes 52:688–700, 2003 Experiment Overall Design: Four B6-ob/ob and four BTBR-ob/ob male mice at 14 weeks of age were used in the microarray study. RNA samples from two individuals were pooled for each tissue, and each pooled RNA sample was applied to an Affymetrix MGU74AV2 array. Because of the scarcity of islets in the BTBR-ob/ob mice, 4 additional mice were pooled to obtain islet RNA from these animals. Sixteen MGU74Av2 arrays (2 strains X 4 tissues X 2 replicates = 16 arrays) were used to monitor the expression level of ≈12,000 genes or ESTs.

Project description:In this study we performed transcriptome sequencing on the Subcutaneous Adipose Tissue and Epicardial Adipose Tissue of both diabetic and nondiabetic human patients.

Project description:Retinal microvessels (RMVs) and brain microvessels (BMVs) were isolated from diabetic and nondiabetic rats. RNA were extracted, amplified and processed on Affymetrix rat 2.0 microarray Chips. Differently expressed genes (DEGs) between diabetic RMVs and nondiabetic RMVs, and between diabetic BMVs and nondiabetic BMVs were analyzed. Using these DEGs, we analyzed and compared the diabetic effects on the gene expression profiles in retinal microvasculature and brain microvasculature. In the brain microvasculature multiple compensatory mechanisms exists, serving to protect brain tissue from diabetic insults, whereas these mechanisms are not activated in the retinal microvasculature.

Project description:Assessment of secreted proteins from EDL and soleus muscle, as well as visceral and subcutaneous adipose tissue of sedentary and exercise-trained obese male mice.

Project description:RNA-seq was performed on samples of frozen tissue (liver, adipose, skeletal muscle, heart, and pancreatic islets) from the eight founder stains for the Diversity Outbred mice. The mice were fed a high-fat, high-sugar diet to sensitize them to the development of diabetes.

Project description:RNA-seq was performed on samples of frozen tissue (liver, adipose, skeletal muscle, heart, and pancreatic islets) from the eight founder stains for the Diversity Outbred mice. The mice were fed a high-fat, high-sugar diet to sensitize them to the development of diabetes.

Project description:RNA-seq was performed on samples of frozen tissue (liver, adipose, skeletal muscle, heart, and pancreatic islets) from the eight founder stains for the Diversity Outbred mice. The mice were fed a high-fat, high-sugar diet to sensitize them to the development of diabetes.

Project description:RNA-seq was performed on samples of frozen tissue (liver, adipose, skeletal muscle, heart, and pancreatic islets) from the eight founder stains for the Diversity Outbred mice. The mice were fed a high-fat, high-sugar diet to sensitize them to the development of diabetes.

Project description:RNA-seq was performed on samples of frozen tissue (liver, adipose, skeletal muscle, heart, and pancreatic islets) from the eight founder stains for the Diversity Outbred mice. The mice were fed a high-fat, high-sugar diet to sensitize them to the development of diabetes.