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GSE51223
Mus musculus
4 Downloadable Samples
Affymetrix Mouse Gene 1.0 ST Array (mogene10st)
Description
Transcriptional effectors of white adipocyte-selective gene expression have not been described. TLE3 is a white-selective cofactor that acts reciprocally with the brown-selective cofactor Prdm16 to specify lipid storage and thermogenic gene programs.
Publication Title
Adipose subtype-selective recruitment of TLE3 or Prdm16 by PPARγ specifies lipid storage versus thermogenic gene programs.
Sample Metadata Fields
Sex, Age, Specimen part
View Samples- Mus musculus
- 12 Downloadable Samples
- Affymetrix Mouse Genome 430 2.0 Array (mouse4302)
Description
Determing the influence of lipid metabolism on murine T cell blastogenesis. Gene expression studies from purified spleen and lymph node T cells with conditional deletion of the SREBP Cleavage Activating Protein (SCAP) ex vivo or activated with plate-bound anti-CD3 and CD28 antibodies for 6 h.
Publication Title
Sterol regulatory element-binding proteins are essential for the metabolic programming of effector T cells and adaptive immunity.
Sample Metadata Fields
Sex, Specimen part
View Samples- Mus musculus
- 57 Downloadable Samples
Illumina HiSeq 2000
Description
We report a multi-omic study of sex differences and gene-by-sex interactions across a panel of 100 inbred strains of mice (the Hybrid Mouse Diversity Panel, HMDP), with a focus on metabolic and cardiovascular traits. For all traits examined, including obesity, insulin resistance, fatty liver, atherosclerosis, and gut microbiota composition, sex differences were influenced by genetic background. Loci identified by genome-wide association studies (GWAS) of the traits were frequently influenced by sex. Lyplal1, a gene implicated in human obesity, was shown to underlie a sex-specific locus for diet induced obesity. Many of the sex-dependent traits showed interdependencies as judged by correlation and shared gene expression patterns, indicating higher order regulation. Global gene expression analyses of tissues across the HMDP indicated that sex differences in mitochondrial functions in adipose contributed to many of the traits. Consistent with this, we observed that females tended to be more resistant to the adverse effects of a high fat diet, with smaller adipocytes and increased “browning” of white adipose tissue as compared to males. Sex-specific differences in mitochondrial activity were confirmed by examining respiration of isolated mitochondria. Gonadectomy experiments revealed thousands of genes influenced by sex hormones. In liver, a tissue exhibiting particularly strong differences in gene expression between tissues, sex hormones appeared to be the primary driver of the differences, whereas in adipose organizational effects of sex appeared to be more important. Overall design: Sixteen male and sixteen female C57BL/6J were purchased from The Jackson Laboratory (Bar Harbor). Mice were either maintained on a chow diet (Ralston Purina Company) or placed on an HF/HS diet (Research Diets D12266B) at 8 weeks of age until 16 weeks of age. At 6 weeks of age the mice were gonadectomized under isoflurane anesthesia. Scrotal regions of male mice were bilaterally incised, testes removed, and the incisions closed with wound clips. Ovaries of female mice were removed through an incision just below the rib cage. There were four mice per group. The muscle layer was sutured, and the incision closed with wound clips. In sham-operated control mice, incisions were made and closed as described above. The gonads were briefly manipulated, but remained intact. Gonadal fat and liver samples were taken for RNASeq expression profiling.
Publication Title
Gene-by-Sex Interactions in Mitochondrial Functions and Cardio-Metabolic Traits.
Sample Metadata Fields
Sex, Age, Cell line, Treatment, Subject
View Samples- Mus musculus
- 11 Downloadable Samples
- Illumina HiSeq 2000, Illumina HiSeq 4000
Description
Signaling pathways that promote adipose tissue thermogenesis are well characterized, but the physiologic limiters of energy expenditure are largely unknown. Here we show that ablation of the anti-inflammatory cytokine IL-10 improves insulin sensitivity, protects against diet-induced obesity, and elicits the browning of white adipose tissue. Mechanistic studies define bone marrow cells as the source of the IL-10 signal and mature adipocytes as the target cell type mediating these effects. IL-10 receptor alpha is highly enriched in mature adipocytes and is induced in response to cold, obesity and aging. ATAC-seq and RNA-seq reveal that IL-10 represses the transcription of thermogenic genes in adipocytes by altering chromatin accessibility and inhibiting ATF and PGC-1alpha recruitment to key enhancer regions. These findings identify the IL-10 axis as a critical and potentially targetable regulator of thermogenesis, and expand our understanding of the links between inflammatory signaling and adipose tissue function in the setting of obesity. Overall design: Immortalized brown/beige-like preadipocyte cell line(iBAd Cells) was used for ATAC-Seq and mRNA-Seq. For RNA-Seq, triplicate experiments were performed, for ATAC-Seq individual samples were sequenced after 5 days of differentiation with either control treatment, or including IL-10 overnight prior to addition of Isoproterenol for 5-6 hours. Inguinal White adipose tissue was used for RNA-Seq from either WT or IL-10-/- animals, where 11 IL10-/- mice and 9 WT mice were seperately pooled for library construction and sequencing.
Publication Title
IL-10 Signaling Remodels Adipose Chromatin Architecture to Limit Thermogenesis and Energy Expenditure.
Sample Metadata Fields
Cell line, Subject, Time
View Samples- Homo sapiens
- 9 Downloadable Samples
- Illumina HiSeq 2000
Description
We analyzed the global transcriptome signature over the time course of the cardiac differentiation from hESC by RNA-seq. We characterized the genome-wide transcriptome profile of 5 distinct stages; undifferentiated hESC (day 0), mesodermal precursor stage (hMP, day 2), cardiac progenitor stage (hCP, day 5), immature cardiomyocyte (hCM14) and hESC-CMS differentiated for 14 additional days (hCM28). While the stem cell signature decreases over the five stages, the signatures associated with heart and smooth muscle development increase, indicating the efficient cardiac differentiation of our protocol. Overall design: Five different temporal samples, two replicates for only first four samples day 0 through day 15
Publication Title
Glucose inhibits cardiac muscle maturation through nucleotide biosynthesis.
Sample Metadata Fields
Specimen part, Subject
View Samples- Homo sapiens
- 6 Downloadable Samples
- IlluminaHiSeq2000
Description
Cellular lipid requirements are achieved through a combination of biosynthesis and import programs. Using isotope tracer analysis, we show that type I interferon (IFN) signaling rapidly shifts the balance of these programs by decreasing synthesis and increasing import of cholesterol and long chain fatty acids. Genetically enforcing this metabolic shift in macrophages is sufficient to render mice resistant to viral challenge, demonstrating the importance of reprogramming the balance of these two metabolic pathways in vivo. Unexpectedly, mechanistic studies reveal that limiting flux through the cholesterol biosynthetic pathway spontaneously engages a type I IFN response in a STING-dependent manner. The upregulation of type I IFNs was traced to a decrease in the pool size of synthesized cholesterol, and could be inhibited by replenishing cells with free cholesterol. Taken together, these studies delineate a metabolic-inflammatory circuit that links perturbations in cholesterol biosynthesis with activation of innate immunity. Overall design: shRNA to SREBF1 (shSREBP1) or SREBF2 (shSREBP2) were stably introduced via 3rd generation lentivirus into human THP1 monocytic cells under puromycin selection. Non-targeting shRNA scramble was used for a control (shControl). shControl, shSREBP1 and shSREBP2 modified cell types were analyzed by RNA-seq in duplicate.
Publication Title
Limiting Cholesterol Biosynthetic Flux Spontaneously Engages Type I IFN Signaling.
Sample Metadata Fields
No sample metadata fields
View Samples- Mus musculus
- 18 Downloadable Samples
- NextSeq 500
Description
Physical performance relies on the concerted action of myriad responses, many of which are under circadian clock control. Little is known, however, regarding the time-dependent effect on exercise performance at the molecular level. We found that both mice and humans exhibit day-time variance in exercise capacity between the early and late part of their active phase. The day-time variance in mice was dependent on exercise intensity and relied on the circadian clock proteins PER1/2. High throughput gene expression and metabolic profiling of skeletal muscle revealed metabolic pathways that are differently activated upon exercise in a day-time dependent manner. Remarkably, we discovered that ZMP, an endogenous AMPK activator, is induced by exercise in a time-dependent manner to regulate key steps in glycolytic and fatty acid oxidation pathways and potentially enhance exercise capacity. Overall, we propose that time of the day is a major modifier of exercise capacity and associated metabolic pathways. Overall design: basal, high intensity and moderate intensity runnig protocol at ZT14 and ZT22 in gastrocnemius muscle in C57B6 mice
Publication Title
Physiological and Molecular Dissection of Daily Variance in Exercise Capacity.
Sample Metadata Fields
Sex, Cell line, Subject, Time
View Samples- Arabidopsis thaliana
- 6 Downloadable Samples
- Affymetrix Arabidopsis ATH1 Genome Array (ath1121501)
Description
Growth in dense stands induces shade avoidance responses. Early responses to neighbors seem to be assoctaed with touch, not light signalling.
Publication Title
Plant neighbor detection through touching leaf tips precedes phytochrome signals.
Sample Metadata Fields
Specimen part
View Samples- Homo sapiens
- 36 Downloadable Samples
- Affymetrix Human Genome U219 Array (hgu219), Affymetrix Human Gene 1.1 ST Array (hugene11st)
Description
Interleukin-6 (IL-6) is an important growth factor for estrogen receptor-alpha (ER) positive breast cancer, and elevated serum IL-6 is associated with poor prognosis. We firstly demonstrated that pSTAT3 is the primary downstream IL-6 signaling pathway in ER-positive breast cancer, using ten different breast cancer cell lines. Three-dimensional cultures of these cell lines were also used to develop a 17-gene IL-6 specific gene signature that could be used to identify IL-6 driven disease. This signature included a variety of genes involved in immune cell function and migration, cell growth and apoptosis, and the tumor microenvironment. To further validate this IL-6 signature, we obtained 36 human ER-positive breast cancer tumor samples with matched serum for gene expression profiling and determination of an IL-6 pathway activation score (PAS). Patients with high IL-6 PAS were also enriched for elevated serum IL-6 (>=10 pg/ml). We then utilized a murine MCF-7 xenograft model to determine the role of IL-6 in ER-positive breast cancer and potential anti-IL-6 therapy in vivo. When IL-6 was administered in vivo, MCF-7 cells engrafted without the need for estrogen supplementation. Subsequently, we prophylactically treated mice at MCF-7 engraftment with an anti-IL-6 antibody (siltuximab), fulvestrant or combination therapy. Siltuximab alone was able to blunt MCF-7 engraftment. Similarly, when tumors were allowed to grow to 125 mm3 before treatment, siltuximab alone demonstrated tumor regressions in 90% (9/10) of tumors. Given the established role for IL-6 in ER+ breast cancer, this data demonstrates the potential for anti-IL-6 therapeutics.
Publication Title
Interleukin-6 is a potential therapeutic target in interleukin-6 dependent, estrogen receptor-α-positive breast cancer.
Sample Metadata Fields
Specimen part
View Samples- Escherichia coli
- 12 Downloadable Samples
- Affymetrix E. coli Genome 2.0 Array (ecoli2)
Description
We measured transcriptional changes resulting from overexpression or downregulation of the GTPase Obg.
Publication Title
Obg and Membrane Depolarization Are Part of a Microbial Bet-Hedging Strategy that Leads to Antibiotic Tolerance.
Sample Metadata Fields
No sample metadata fields
View Samples