Project description:Brown and beige fat share a remarkably similar transcriptional program that supports fuel oxidation and thermogenesis. The chromatin-remodeling machinery that governs genome accessibility and renders adipocytes poised for thermogenic activation remains elusive. BAF60a serves an indispensable role in cold-induced thermogenesis in brown fat. Surprisingly, fat-specific BAF60a inactivation triggers more pronounced browning of inguinal white adipose tissue. These results suggest a dichotomous role of BAF60a-mediated chromatin remodeling in transcriptional control of brown and beige gene programs. To elucidate the mechanism, we performed microarray annalysis in inguinal white adipose tissues from mice after chronic cold exposure.

Project description:FoxO1 is a transcription factor known to regulate metabolism and functions of different tissues. To study the role of FoxO1 in adipose biology, this study examined the transcript profile in inguinal and gonadal adipose tissues from conditional adipose FoxO1 knockout mice and floxed FoxO1 (control) mice.

Project description:Next generation sequencing of white adipose tissues from adipose FoxO1 knockout mice

Project description:Transcriptome analysis of mice adipose tissues

Project description:Brown and beige fat share a remarkably similar transcriptional program that supports fuel oxidation and thermogenesis. The chromatin-remodeling machinery that governs genome accessibility and renders adipocytes poised for thermogenic activation remains elusive. Here we found that BAF60a, a subunit of the SWI/SNF chromatin-remodeling complexes, serves an indispensible role in cold-induced thermogenesis in brown fat. BAF60a maintains chromatin accessibility for key thermogenic genes in close proximity to PPARg and EBF2 binding sites. Surprisingly, fat-specific BAF60a inactivation triggers more pronounced browning of inguinal white adipose tissue that is linked to induction of MC2R, a receptor for the pituitary hormone ACTH. Elevated MC2R expression sensitizes adipocytes and BAF60a-deficient adipose tissue to thermogenic activation in response to ACTH stimulation. These observations reveal an unexpected dichotomous role of BAF60a-mediated chromatin remodeling in transcriptional control of brown and beige gene programs and illustrate a pituitary-adipose signaling axis in the control of thermogenesis.

Project description:RNA-seq results in adipose tissues of fat-specific Mecp2 knockout mice

Project description:CDK7 adipose tissue specific knockout mice

Project description:Gene expression profile from brown adipose tissues of Prdm16 knockout and wile type mice. Prdm16 is a transcription factor that regulates the thermogenic gene program in brown and beige adipocytes. However, whether Prdm16 is required for the development or physiological function of brown adipose tissue (BAT) in vivo has been unclear. By analyzing mice that selectively lacked Prdm16 in the brown adipose lineage, we found that Prdm16 was dispensable for embryonic BAT development. Brown adipose tissues were collected from Prdm16 knockout and wiletype mice with 4 biological replicates per condition. Experiment was done in two separate batch for 6-week-old and 11-month-old. Extracted RNA was hybridized to Agilent two-color arrays.

Project description:Effect of PRMT5 knockout on gene expression in epididymal white adipose tissues

Project description:mRNA expression was compared in between wild type and caveolin-1 knockout livers mRNA expression was compared in between wild type and caveolin-1 knockout gonadal adipose tissue RNA was isolated from livers from male mice in at the light phase RNA was isolated from gonadal adipose tissues from male mice in at the light phase