Project description:Adipose tissue plays a pivotal role in energy homeostasis and metabolic regulation. However, in obesity, the remarkable adaptability of adipose tissue becomes impaired. The underlying mechanisms behind this limited adaptability remain poorly understood. In this study, we investigate a novel layer of regulation involving translation in the adipose stromal vascular fraction, examining its response to obesity and acute PPARγ agonist treatment with rosiglitazone. Using single-cell RNA sequencing, we establish a transcriptional profile atlas of cellular remodeling from obese to lean-like states in inguinal and epididymal adipose tissue following rosiglitazone treatment. Notably, both stromal fractions exhibit a downregulation of inflammation-related transcripts and an upregulation of lipid-related metabolism and ribosomal transcripts. Adipocyte progenitor and preadipocyte populations display enhanced ex-vivo differentiation potential and upregulation in ribosome and peptide chain elongation pathways. This ribosomal remodeling is directly driven by PPARγ binding to gene promoters of ribosomal factors. Furthermore, we have characterized the translatome in the epididymal stromal fraction, highlighting a buffering response and fat-exclusive preferential translation after rosiglitazone treatment. Enhanced translation efficiency in rosiglitazone-elicited polysomes promotes the translation of transcripts containing G-rich sequences in their 5’ untranslated regions. Our findings shed light and provide a resource on how rosiglitazone remodels the adipose stromal vascular fraction, both dependent and independent of PPARγ. Importantly, we uncover translatome remodeling as a major new mechanism for maintaining translation homeostasis and preserving adipose tissue health in obesity.

Project description:Despite studies implicating adipose tissue T cells (ATT) in the initiation and persistence of adipose tissue inflammation, fundamental gaps in knowledge regarding ATT function impedes progress towards understanding how obesity influences adaptive immunity. We hypothesized ATT activation and function would have tissue-resident specific properties and that obesity would potentiate their inflammatory properties. We assessed ATT activation and inflammatory potential within mouse stromal vascular fraction (SVF).To assess intracellular signaling mechanisms responsible for ATT inflammation impairments, single-cell RNA sequencing of ATTs from epididymal adipose tissue was performed from male chow and high fat diet (60% for 12 weeks) fed mice.

Project description:In order to select mRNA transcripts strongly enriched in murine white adipocytes versus brown adipocytes or stromal-vascular fraction, gene expression data of the adipocyte and stromal-vascular fractions of the interscapular brown, inguinal subcutaneous as well as visceral epididymal adipose tissue depots of young adult male C57BL/6 mice housed at constant 23°C ambient temperature were obtained. 18 samples: 3 different adipose tissues separated into stromal-vascular fraction and adipocytes, analyzed in biological triplicates.

Project description:Obesity has become a global health problem. Brown adipose tissue (BAT), specialized for energy expenditure through thermogenesis, potently counteracts obesity. Recently, BAT is also identified in human adults. We found that Lgr4 homozygous mutant (Lgr4m/m) mice display reduced adiposity and exhibit brown-like adipocytes in their WAT depots with higher expression of uncoupling protein 1 (Ucp1). Furthermore, Lgr4 ablation potentiates brown adipocyte differentiation from stromal vascular fraction (SVF) of epididymal WAT (eWAT) in vitro. We used microarrays to emxamine the gene expression profiles of the brown-like adipocytes differentiated from SVF of wild-type and Lgr4 mutant mice. We identified distinct gene expression profiles of these two groups. To demonstrate Lgr4 ablation can potentiate the differentiation of SVF from eWAT toward brown-like adipocytes in vitro, we isolated SVF from epididymal white adipose tissue (eWAT) of wild-type (WT) and Lgr4 mutant mice. We then plated SVF cells in 12-well plate, and differentiated them to brown adipocytes, followed by RNA extraction and hybridization with Affymetrix microarrays.

Project description:Background: Obesity is associated with infiltration of macrophages into adipose tissue. Adipose macrophages may contribute to an elevated inflammatory status by secreting a variety of pro-inflammatory mediators, including TNFalpha and IL-6. Recent data suggest that during diet-induced obesity the phenotype of adipose-resident macrophages changes from alternatively activated macrophages towards a more classical and pro-inflammatory phenotype. Here, we explore the effect of PPARγ-activation on obesity-induced inflammation in 129SV mice fed a high fat diet for 20 weeks. High fat feeding increased bodyweight gain, adipose tissue mass and liver triglycerides. Rosiglitazone treatment further increased adipose mass, reduced liver triglycerides and changed adipose tissue morphology towards smaller adipocytes. Surprisingly, rosiglitazone markedly increased the number of macrophages in adipose tissue, as shown by immunohistochemical analysis and quantification of macrophage marker genes CD68 and F4/80+. In adipose tissue, markers for classically activated macrophages including IL-18 were down regulated whereas markers characteristic for alternatively activated macrophages (Arginase 1, IL-10) were up regulated by rosiglitazone. Importantly, conditioned media from rosiglitazone-treated alternatively activated macrophages neutralized the inhibitory effect of macrophages on 3T3-L1 adipocyte differentiation, suggesting that alternatively activated macrophages may be involved in mediating the effects of rosiglitazone on adipose tissue morphology and mass. Our results suggest that short term rosiglitazone treatment increases infiltration of alternatively activated macrophages in adipose tissue. The alternatively activated macrophages might play a role in PPARγ-dependent expansion and remodeling of adipose tissue. Keywords: metabolic state analysis Pure bred wild-type (129S1/SvImJ) male mice received a low fat diet or high fat diet for 21 weeks, providing 10 or 45% energy percent in the form of triglycerides (D12450B or D12451, Research Diets, New Brunswick, USA). The lard component in these diets was replaced by palm oil. In the last week of diet intervention, half of the mice receiving the HFD were switched to HFD supplemented with Rosiglitazone (0.01 % wt/wt). Animals were sacrificed in the fed state. Epididymal adipose tissue was excised and frozen in liquid nitrogen. Pooled RNA samples from 5 mice per experimental group were used for microarray analysis. Samples were hybridized on Affymetrix GeneChip Mouse Genome 430-2.0 plus arrays. Five microgram total RNA was labelled according to the Affymetrix One-cycle Target Labeling Assay, fragmented and hybridized according to Affymetrix's protocols.

Project description:The goal of this study was to analyse the effect of a 12 weeks treatment with rosiglitazone on gene expression in adipose tissue of type 2 diabetic patients. Diabetic patients were treated with rosiglitazone, agonist of PPAR gamma, during 12 weeks. Adipose tissue biopsies were taken before and after the treatment.

Project description:Obesity has become a global health problem. Brown adipose tissue (BAT), specialized for energy expenditure through thermogenesis, potently counteracts obesity. Recently, BAT is also identified in human adults. We found that Lgr4 homozygous mutant (Lgr4m/m) mice display reduced adiposity and exhibit brown-like adipocytes in their WAT depots with higher expression of uncoupling protein 1 (Ucp1). Furthermore, Lgr4 ablation potentiates brown adipocyte differentiation from stromal vascular fraction (SVF) of epididymal WAT (eWAT) in vitro. We used microarrays to emxamine the gene expression profiles of the brown-like adipocytes differentiated from SVF of wild-type and Lgr4 mutant mice. We identified distinct gene expression profiles of these two groups.

Project description:In order to select mRNA transcripts strongly enriched in murine white adipocytes versus brown adipocytes or stromal-vascular fraction, gene expression data of the adipocyte and stromal-vascular fractions of the interscapular brown, inguinal subcutaneous as well as visceral epididymal adipose tissue depots of young adult male C57BL/6 mice housed at constant 23°C ambient temperature were obtained.

Project description:Epididymal white adipose tissue from adipocyte-specific mitochondria reporter (MitoFat) mice was harvested, and the stromal vascular fraction was isolated. Live CD45+ F4/80+ CD64+ mtD2- and live CD45+ F4/80+ CD64+ mtD2+ macrophages were sort-purified directly into lysis buffer, followed by RNA sequencing.

Project description:Background: Obesity is associated with infiltration of macrophages into adipose tissue. Adipose macrophages may contribute to an elevated inflammatory status by secreting a variety of pro-inflammatory mediators, including TNFalpha and IL-6. Recent data suggest that during diet-induced obesity the phenotype of adipose-resident macrophages changes from alternatively activated macrophages towards a more classical and pro-inflammatory phenotype. Here, we explore the effect of PPARγ-activation on obesity-induced inflammation in 129SV mice fed a high fat diet for 20 weeks. High fat feeding increased bodyweight gain, adipose tissue mass and liver triglycerides. Rosiglitazone treatment further increased adipose mass, reduced liver triglycerides and changed adipose tissue morphology towards smaller adipocytes. Surprisingly, rosiglitazone markedly increased the number of macrophages in adipose tissue, as shown by immunohistochemical analysis and quantification of macrophage marker genes CD68 and F4/80+. In adipose tissue, markers for classically activated macrophages including IL-18 were down regulated whereas markers characteristic for alternatively activated macrophages (Arginase 1, IL-10) were up regulated by rosiglitazone. Importantly, conditioned media from rosiglitazone-treated alternatively activated macrophages neutralized the inhibitory effect of macrophages on 3T3-L1 adipocyte differentiation, suggesting that alternatively activated macrophages may be involved in mediating the effects of rosiglitazone on adipose tissue morphology and mass. Our results suggest that short term rosiglitazone treatment increases infiltration of alternatively activated macrophages in adipose tissue. The alternatively activated macrophages might play a role in PPARγ-dependent expansion and remodeling of adipose tissue. Keywords: metabolic state analysis