Project description:To identify the potential genes that regulated by Trim24 through Stat6 DNA binding activity, we immunoprecipitated chromatin from WT or Trim24-KO macrophages stimulated with IL-4, and analyzed the precipitated DNA with deep sequencing (ChIP-Seq).

Project description:TRIM24 occupancy and TRIM24-dependent gene expression in prostate cancer cells

Project description:The transcriptional coregulator Trim24 (formerly known as TIF1a) functions in mice as a liver-specific tumor suppressor. Mice carrying a null mutation in the Trim24 gene all develop hepatocellular carcinoma (HCC). We used microarrays to identify the alterations in gene expression patterns associated with loss of Trim24 and consequent HCC development. Experiment Overall Design: Five independent liver tumor (HCC) samples taken from five Trim24 knockout (KO) mice and five normal liver tissue samples taken from wild-type (WT) littermate controls were used for RNA extraction and hybridization on Affymetrix microarrays.

Project description:Conditional overexpression of histone reader Tripartite motif containing protein 24 (TRIM24) in mouse mammary epithelia (Trim24COE) drives spontaneous development of carcinosarcoma tumors, lacking ER, PR and HER2. Human carcinosarcomas or metaplastic breast cancers (MpBC) are a rare, chemorefractory subclass of triple-negative breast cancers (TNBC). Comparison of Trim24COE carcinosarcoma morphology, TRIM24 protein levels and a derived Trim24COE gene signature revealed strong correlation with human MpBC tumors and MpBC xenograft (PDX) models. Global and single-cell tumor profiling revealed Met as a direct oncogenic target of TRIM24, leading to aberrant PI3K/mTOR activation. Pharmacological inhibition of these pathways in primary Trim24COE tumor cells and TRIM24-PROTAC treatment of MpBC PDX tumorspheres revealed the therapeutic potential of targeting TRIM24. Altogether, global expression, single-cell immunophenotyping and mechanistic studies of tumors and MpBC PDX nominated TRIM24-activated c-MET/PI3K/mTOR pathways and TRIM24, which were validated as potential MpBC therapeutic targets.

Project description:Recent genetic studies in mice have established a key role for the nuclear receptor coregulator Trim24 in liver tumor suppression and provided evidence that Trim24 suppresses hepatocarcinogenesis by inhibiting retinoic acid receptor alpha (Rara)-dependent transcription and cell proliferation. However, it is unknown which downstream targets of Rara regulated by Trim24 are critical for tumorigenesis. We report here that loss of Trim24 results in the overexpression of interferon (IFN)/STAT pathway genes in the liver, a process that occurs early in tumorigenesis and is more pronounced in tumors, despite the enhanced expression, late in the disease, of negative regulators such as Usp18, Socs1 and Socs2. Remarkably, Rara haplodeficiency, which was previously shown to suppress tumor development in Trim24-/- mice, also suppresses overexpression of the IFN/STAT pathway, thus providing evidence for a cross-pathway control that may be relevant to the transformation process. Biochemical studies revealed that Trim24 binds to the retinoic acid (RA)-responsive element in the Stat1 promoter in a RA-dependent manner and represses RA-induced transcription from this promoter. Together, these results identify Trim24 as a novel regulator of the IFN/STAT pathway and indicate that Trim24-mediated repression of the IFN/STAT signaling through Rara inhibition may play a critical role in preventing liver cancer. Generation of Trim24-/- mice has been described previously (Khetchoumian et al., 2007) by gene disruption. To generate compound mutant mice with a single allele of Rara deleted in the Trim24 -/- mutant background, we crossed Trim24 -/- mice with Rara+/- mice. The resulting Trim24+/- Rara+/- mice were generated in the hybrid (C57BL/6 (60%), 129/Sv (40%)) genetic background. These double heterozygous Trim24+/- Rara+/- mice were intercrossed to generate Trim24 -/-, Trim24 -/- Rara+/- and wild-type mice. Transcriptional profiling of mice at 5-weeks and 14-weeks of age.

Project description:In this study, proteomic profiling of TRIM24 interactome in conjunction with shRNA screening of TRIM24 top-interactors nominated that TRIM28 is indispensable for TRIM24 protein stability. We showed that TRIM28 stabilizes TRIM24 against SPOP-mediated ubiquitination and degradation. TRIM28 promotes TRIM24 and AR transcription activity, androgen-dependent and -independent PCa growth. In addition, we demonstrated that TRIM28 level in high in advanced PCa, which drives TRIM24/AR transcription activity in a similar manner to SPOP mutation, which implies that TRIM28 potentially dictates the therapeutic outcome of TRIM24-targeted therapy.

Project description:RNA profiling was performed in the liver of TRIM24-C52/55A knockin mice fed the high fat diet to identify key downstream targets of TRIM24.

Project description:Long-term peritoneal dialysis (PD) is associated with functional and structural alterations of the peritoneal membrane. Inflammation may be the key moment and consequently fibrosis, the end result of chronic inflammatory reaction. The objective of the study was to identify genes involved in peritoneal alterations during PD by comparing transcriptome of peritoneal cells in short- and long-term PD patients. Peritoneal effluent of the long-dwell of stable PD patients was centrifuged to obtain peritoneal cells. Gene expression profiling of peritoneal cells using microarray between short- and long-term PD patients was compared. Based on microarray analysis 31 genes for RT-qPCR validation were chosen. A 4-hour peritoneal equilibration test (PET) was performed on the day after the long dwell. Transport parameters and proteins appearance rates were assessed. Genes involved in the immune system process, immune response, cell activation, leuko- and lymphocyte activation were found to be substantially up-regulated in the long-term group. RT-qPCR validation showed higher expression of CD24 (CD24 molecule), LY9 (lymphocyte antigen 9 ), TNFRSF4 (tumor necrosis factor receptor superfamily, member 4), CD79A (CD79a molecule, immunoglobulin-associated alpha), CCR7 (chemokine (C-C motif) receptor 7), CEACAM1 (carcinoembryonic antigen-related cell adhesion molecule 1) and IL2RA (interleukin 2 receptor, alpha) in long-term PD patients, CD24 having the best discrimination ability between short- and long-term treatment. A relationship between CD24 expression and genes for collagen and matrix formation was shown. Activation of CD24 provoked by pseudohypoxia due to extremely high glucose concentrations in dialysis solutions might play the key role in the development of peritoneal membrane alterations.

Project description:TRIM24 PHD-Bromo domains exhibit preferential binding to unmethylated H3K4 and acetylated H3K27. TRIM24 is a co-activator of estrogen receptor (ER). The results suggest that specific ER-binding sites are depleted of H3K4me2 with estrogen treatment. TRIM24 binds these sites preferentially and facilitates ER-regulated gene expression, cell survival and proliferation. ChIP performed on MCF7 cells +/- estrogen with antibodies against ER, TRIM24 and H3K4me2. ChIP assays of ER, co-activator TRIM24 and H3K4me2 were performed with two concentrations of antibody, without and 6h with estrogen treatment of MCF7 cells. Antibody-enriched samples were sequenced two times, and compared to an IgG negative control and Input. Enriched DNA sequenced by Illumina Solexa.

Project description:In this study, proteomic profiling of TRIM24 interactome in conjunction with shRNA screening of TRIM24 top-interactors nominated that TRIM28 is indispensable for TRIM24 protein stability. We showed that TRIM28 stabilizes TRIM24 against SPOP-mediated ubiquitination and degradation. TRIM28 promotes TRIM24 and AR transcription activity, androgen-dependent and -independent PCa growth. In addition, we demonstrated that TRIM28 level in high in advanced PCa, which drives TRIM24/AR transcription activity in a similar manner to SPOP mutation, which implies that TRIM28 potentially dictates the therapeutic outcome of TRIM24-targeted therapy.