Project description:This study examines the transgenerational adipocyte (fat cell) epigenetic alterations in F3 generation obese and lean rats ancestrally exposed to DDT and atrazine. Adipocytes were isolated from the gonadal fat pad of F3 generation 1-year old rats ancestrally exposed to DDT, atrazine, or vehicle control in order to obtain adipocyte DNA for DNA methylation analysis. Observations indicate that there were differential DNA methylated regions (DMRs) in the adipocytes with the lean or obese phenotypes compared to control normal (non-obese or lean) populations. Interestingly, there were epigenetic changes that were distinct when comparing the lean and obese DMRs between the control and exposure lineage groups. DMR gene associations were identified which included common set of genes previously shown to associate with adipocyte pathology. The comparison of epigenetic alterations indicated that there were substantial overlaps between the different treatment lineage groups for both the lean and obese phenotypes. Novel correlated genes and gene pathways associated with DNA methylation were identified, and may aid in the discovery of potential therapeutic targets for metabolic diseases such as obesity.
Project description:Affymetrix miRNA 4.0 array profiling of adipocyte-derived exosomes from lean and obese subjects. We used miRNA arrays to profile FABP4+ (adipocyte-derived) exosomes isolated from serum of lean and obese subjects.
Project description:Microarray analysis comparing gene expression profiles of primary cultured preadipocytes from non-diabetic lean vs non-diabetic obese Pima Indian subjects (a subset of the subjects from the adipocyte genechip project, GSE2508). Primary cultured abdominal subcutaneous preadipocytes from 14 lean (7 Males / 7 Females) and 14 obese (7M/7F) subjects were hybridized individually to Affymetrix oligonucleotide arrays HG-U133A and B.
Project description:Analysis of A549 gene expression (mRNA) after 24 hour exposure to ten different doses of obese visceral adipocyte exosomes. The hypothesis is that obese visceral adipocyte exosomes genetically regulate genes in the TGFβ and Wnt-βcatenin pathways.
Project description:Microarray analysis comparing gene expression profiles of adipocytes from non-diabetic lean vs non-diabetic obese Pima Indian subjects to identify differentially expressed adipocyte genes with obesity. RNA samples of isolated abdominal subcutaneous adipocytes from 20 lean (10 Males / 10 Females, aged 31±6 year, Body Mass Index 25±3 kg/m2 ) and 19 obese (9M/10F, 29±5y, 55±8 kg/m2 ) subjects were hybridized individually to Affymetrix oligonucleotide arrays HG-U95A, B, C, D, and E.
Project description:Affymetrix miRNA 3.0 array profiling of adipocyte-derived exosomes from obese and lean human subjects We used miRNA arrays to profile exosomes shed from obese and lean human visceral and subcutaneous fat that was cultured for 60 minutes. Human obese and lean visceral and subcutaneous fat were surgically acquired, dissected, and promptly cultured for 60 minutes. We used the culture supernatants for exosome purification and isolation using ExoQuick-TC Precipitation Solution
Project description:In obesity, sustained adipose tissue (AT) inflammation constitutes a cellular memory that limits the effectiveness of weight loss interventions. Yet, its fasting regimen-dependent regulation is unknown. Here, we show that cyclic intermittent fasting (IF) exacerbates the lipid-associated macrophage (LAM) inflammatory phenotype of visceral AT in obese mice. Importantly, we provide evidence that this increase in LAM abundance is almost entirely dependent on p53-driven adipocyte apoptosis. Adipocyte-specific deletion of p53 prevents LAM accumulation in AT during IF and increases the catabolic state of adipocytes, ameliorates metabolic flexibility, and insulin sensitivity. Finally, in cohorts of obese/diabetic patients, we describe a p53 polymorphism that links to long-term efficacy of a fasting-mimicking diet and that the expression of LAM markers and p53 in AT negatively correlates with maintaining weight loss after bariatric surgery. Overall, our results demonstrate that p53 signaling in adipocytes dictates LAM accumulation in AT under IF and that adipocyte p53 modulates fasting effectiveness in mice and humans.
Project description:Affymetrix miRNA 3.0 array profiling of adipocyte-derived exosomes from obese and lean human subjects. We used miRNA arrays to profile exosomes shed from obese and lean human subcutaneous fat that was cultured for 60 minutes. Human obese and lean subcutaneous fat were surgically acquired, dissected, and promptly cultured for 60 minutes. We used the culture supernatants for exosome purification and isolation using ExoQuick-TC Precipitation Solution.
Project description:Affymetrix miRNA 3.0 array profiling of adipocyte-derived exosomes from obese and lean human subjects. We used miRNA arrays to profile exosomes shed from obese and lean human visceral fat that was cultured for 60 minutes.
