Project description:Affymetrix GeneChip miRNA 3.0 microarrays were compared in gingival tissue biopsy samples from obese and normal weight patients with periodontitis

Project description:Obesity has been linked to lifestyle and recently have been associated to DNA methylation changes that may cause alterations in the adipogenesis and lipid storage processes and contribute to the pathological state. We enrolled Obese (Ob) and Normal Weight (NW) women. We observed that DNA methylation patterns are different between normal weight and obese women. This can alter gene expression patterns affecting adipogenesis and lipid storage. This results confirms that an obesogenic lifestyle can promote epigenetic changes in the human DNA.

Project description:The aim of study was to investigate correlation bewteen peripheral blood mononuclear cell (PBMC) transcriptome profiles and plasma lipid profiles of Korean adult with varying BMI. In Korean, BMI cut-off points are 18.5~22.9 kg/m2 (normal range), M-bM-^IM-% 23 kg/m2 (overweight), M-bM-^IM-% 25 kg/m2 (obese), M-bM-^IM-% 30 kg/m2 (severely obese). Thus, the obese group was subdivided into mildly obese (BMI 25~27 kg/m2, OA) and highly obese (BMI 27~30 kg/m2, OB). This study indicates that lipid, glucose and inflammation metabolism-related gene expressions were altered according to cahnge of varing phenotype biomarkers such as BMI, plasma total-C, TG, FFA and HDL-C. Thus, blood biomarkers and PBMC gene expression profiles identified in this study may be useful as indicative biomarkers for obese susceptibility in Korean adult as well as response to various intervention for treating obesity. Total RNA of PBMCs was obtained from normal weight, obese person and mRNA expression was measured.

Project description:Adipose, once considered an inert storage depot, is now known to be an active endocrine tissue involved in total body homeostasis and metabolism, which exerts effects on multiple systems including food intake, immune function, and blood glucose regulation. Adipose tissue depots are known to have unique metabolic and gene expression profiles in vivo and when cultured in vitro. Differences in adipose tissue depot function could be important in determining chronic disease risk. Few comparisons of depot gene expression have been performed in the dog. Utilizing microarray technology, our objective was to identify differentially expressed genes and enriched functional pathways between subcutaneous and gonadal adipose of lean and obese dogs. Subcutaneous and gonadal adipose tissue samples were collected from 9 intact female beagles (4 yr-old; 4 lean controls; 5 obese ad libitum-fed) after 24 wk of ad libitum feeding.

Project description:Experiment on MolOBB dataset by Novo Nordisk. Expression profiling of gluteal and abdominal fat biopsies and whole blood from obese and normal weight patients.

Project description:Adipose, once considered an inert storage depot, is now known to be an active endocrine tissue involved in total body homeostasis and metabolism, which exerts effects on multiple systems including food intake, immune function, and blood glucose regulation. Adipose tissue depots are known to have unique metabolic and gene expression profiles in vivo and when cultured in vitro. Differences in adipose tissue depot function could be important in determining chronic disease risk. Few comparisons of depot gene expression have been performed in the dog. Utilizing microarray technology, our objective was to identify differentially expressed genes and enriched functional pathways between subcutaneous and gonadal adipose of lean and obese dogs.

Project description:Objectives: We compared metabolic biomarkers in the blood and PBMC gene expression profiles among normal weight, mildly obese, and moderately obese Korean adult men. Design: Subjects were classified as normal weight (BMI, 18.5~23 kg/m2), mildly obese (BMI, 25~27.5 kg/m2), and moderately obese (BMI, 27.5~30 kg/m2). Results: High leptin, lipids (except LDL- and HDL-cholesterol), and apolipoprotein B levels and low adiponectin and HDL-cholesterol levels were present in the plasma of both mildly and moderately obese subjects. Circulating levels of inflammatory cytokines (TNF-α and IL-6) and markers of insulin resistance, oxidative stress, and liver damage were altered in moderately obese subjects but not mildly obese subjects. PBMC transcriptome data showed enrichment of pathways involved in energy metabolism, insulin resistance, bone metabolism, cancer, inflammation, and fibrosis in both mildly and moderately obese subjects. Signaling pathways involved in oxidative phosphorylation; triglyceride synthesis; carbohydrate metabolism; insulin, mTOR, FOXO, RAP1, RAS, and TGF-β signaling; and ECM–receptor interaction were enriched only in moderately obese subjects, indicating that changes in PBMC gene expression profiles according to metabolic disturbances were associated with the development and/or aggravation of obesity. In particular, upregulation of 8 genes (FLT3LG, LTB, IL23A, CD19, CPT1B, AXIN2, CACNA1L, RPRM) and downregulation of 2 genes (CCL4L1, LPAR5) were observed only in mildly obese subjects. Six genes (CXCR5, NFKBIA, BIRC3, TNFAIP3, DDIT3, PDE4B) and 4 genes (CX3CR1, HSPA1A, CACNA2D3, APAF1) were up- and down-regulated, respectively, in both mildly and moderately obese subjects. These results suggested that these genes could be used as early or stable biomarkers for diagnosing and treating obesity-associated metabolic disturbance.

Project description:Transcriptional profiling of dog muscle tissue comparing control dogs. tested, genomewide, for genes differentially expressed in muscle between the escapers and the affected dogs. Using Agilent mRNA SurePrint Canine arrays, we compared muscle gene expression of the two escapers, four affected, and four normal dogs at age 2 years.

Project description:Purpose: To identify, using RNA-sequencing, differentially expressed genes in the white adipose tissue in obesity and in response to lipid intervention in both normal weight and obese individuals. Methods: White adipose tissue mRNA profiles of normal weight and obses humans at baseline (0-weeks) and 12-weeks after fish oil (3d/day of which 1.1g EPA and 0.8g DHA) or corn oil (3g/day) supplementation were generated by deep sequencing using RNA sequencing. The sequence reads that passed quality filters were aligned to the human genome using TopHat and analyzed at the gene level using DESeq2. qRT–PCR validation was performed using Taqman probe assays Results: Using an optimized data analysis workflow, we mapped reads to the human genome (hg38.0) and identified 789 genes differentially expressed between normal weight and obese individuals at baseline (week-0) (adjusted p value <0.05 and fold change >2). 623 of these were upregulated and 175 were downregulated. Geneset enrichment analysis identified several enriched pathways, including regulation of immune and inflammatory response, tissue growth and glucose metabolism in obese indvidiuals in comparison to normal weight. We identified 26 genes differentially expressed in normal weight individuals in response to fish oil intervention (week-12) (adjusted p value <0.05 and fold change >1). 14 of these were upregulated and 12 were downregulated. We identified 8 genes differentially expressed in obese individuals in response to fish oil intervention (week-12) (adjusted p value <0.05 and fold change >1). 3 of these were upregulated and 5 were downregulated. Geneset enrichment analysis identified several enriched pathways, including regulation of immune and inflammatory response in both normal weight and obese individuals in response to fish oil intervention with greater effects in normal weight individuals. Conclusions: Our study provides novel insights into the association of obesity and changes to the human white adipose tissue transcriptome, in addition to the effects of fish oil (EPA and DHA) on the transcriptome of normal weight and obese individuals and differences in response between these BMI subgroups. Our study further identifies putative gene targets and molecular pathways that help to understand how obesity results in adipose tissue dysfunction and how EPA and DHA may modulate the long term expression of gene networks and disease pathways related to onset of obesity associated inflammation.

Project description:Injury of skeletal muscle is a common occurence affecting millions worldwide. Injuries usually are not major incisions into daily life, however, the underlying health varies e. g. due to obesity. Obesity is usually accompanied by excessive and dysfunctional lipid depots, chronic low-grade inflammation as well as several co-morbidities, which are able to impair the regeneration of skeletal muscle. A blunt injury approach was used to damage mouse skeletal muscle of the extensor iliotibialis anticus in both obese and normal weight C57BL/6J mice. Microarray analysis was used to assess the molecular fingerprint in different stages of muscle regeneration while observing different health conditions.