Project description:Prognosis of metastatic BRAF V600E mutant colorectal cancer (CRC) is poor, and the prognostic implications of immune contextures in the tumor microenvironment (TME) for CRC remain elusive. Complement activation in the TME was significantly associated with poor OS and was correlated with TAM M2 in patients with de novo metastatic BRAF V600E mutant CRC.

Project description:In the human EGFR mutant adenocarcinoma cell line PC9 pBabe empty vector (EV) or BRAF V600E were overexpressed. RNA was extracted from EV, BRAF V600E overexpressing or osimertinib-resistant BRAF V600E expressing cells after 48h treatment with osimertinib, trametinib, a combination of both or vehicle controls. RNA was subjected to 3' UTR RNA sequencing.

Project description:BRAF(V600E) is a frequent mutation in colon cancer. We have analysed transcriptional effects of BRAF(V600E) in the intestinal epithelium of transgenic mice that harbour an inducible BRAF(V600E) transgene. Mice used in this experiment were compound transgenic for a stem-cell specific Lgr5-EGFP Reporter and either an inducible TdTomato-2A-BRAF(V600E) transgene or an inducibe TdTomato-luciferase transgene. Transgenes were induced by doxycycline (4mg/ml) treatment provided in a 1% sucrose solution in the drinking water of transgenic mice for 24h. Intestinal crypts were isolated by filtering (70um) following a PBS/EDTA incubation step. Single cell suspensions were made by digestion of crypts in 500ug/ml trypsine and 0.8u/ml DNAseI for approx. 20min at RT. Cell populations for profiling were isolated by FACS, using an Aria SOPR (BD), equipped with a 70um nozzle.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Goals of the study was to compare transcripional and phenotypic response of mouse intestinal organoid cultures to the KRAS(G12V) or BRAF(V600E)oncogenes.

Project description:Background Main drawback of BRAF/MEK inhibitors (BRAF/MEKi)-based targeted therapy in the management of BRAF- mutated cutaneous metastatic melanoma (MM) is the development of therapeutic resistance. We aimed to define in this context the specific role of mTORC2, a signaling complex defined by the presence of the essential RICTOR subunit and regarded as an oncogenic driver in several tumor types, including MM. Methods After analyzing the TCGA MM patients’ database to explore both overall survival and molecular signatures as a function of intra-tumor RICTOR levels, we investigated the effects of RICTOR downregulation in BRAF V600E MM cell lines on their response to BRAF/MEKi in vitro. We performed a proteomic screening to identify proteins modulated by changes in RICTOR expression and Seahorse analysis to evaluate the effects of RICTOR depletion on mitochondrial respiration. The combination of BRAFi with drugs targeting proteins and processes emerged in the proteomic screening was carried out on RICTOR-deficient cells in vitro and in a xenograft setting in vivo. Results We found that low RICTOR levels in MM correlate with an overall worse clinical outcome. GSEA of low- RICTOR tumors revealed a gene expression signature suggestive of activation of the mitochondrial Electron Transport Chain (ETC) energy producing pathway. RICTOR-deficient BRAF V600E cells are intrinsically tolerant to BRAFi/MEKi and anticipate the onset of resistance to BRAFi upon prolonged drug exposure. In RICTOR- depleted cells, both mitochondrial respiration and expression of nicotinamide phosphoribosyltransferase (NAMPT) are enhanced, while their pharmacological inhibition restores sensitivity to BRAFi. Conclusions Our work unveils a novel tumor suppressing role for mTORC2 in the responses of BRAF V600E melanoma cells to targeted therapy and identifies the NAMPT-ETC axis as a potential therapeutic vulnerability of low- RICTOR tumors. Importantly, our findings support the concept that the evaluation of intra-tumor RICTOR levels in MM has a prognostic value, and may help predicting the response of patients to targeted therapy.

Project description:The genome-wide miRNA expression analysis was performed in clinical samples, comprising 15 BRAF-mutant and 15 non-KRAS/BRAF-mutant colorectal cancers by using a SurePrint G3 Human miRNA microarray. clinical samples, comprising 15 BRAF-mutant and 15 non-KRAS/BRAF-mutant colorectal cancers by using a SurePrint G3 Human miRNA microarray.

Project description:Langerhans Cell Histiocytosis (LCH) is an inflammatory disease characterized by abnormal dendritic cells (DCs) with hyperactive ERK signaling, called “LCH cells”. Since DCs rely on ERK signaling to produce inflammatory signaling molecules in response to pathogenic cues, we hypothesized that hyperactive ERK will enhance DC inflammatory responses. We utilized the BRAF-V600E fl/+: CD11c-Cre mouse model of LCH which hyperactivates MAPK/ERK signaling in DCs. We cultured bone-marrow derived dendritic cells (BMDCs) from LCH and control mice (BRAF-V600E fl/+: Cre0) and stimulated them with LPS with or without a specific BRAF-V600E inhibitor. Polysome Profiling revealed a large and irreversible increase in levels of polysome bound RNA in the LCH-BMDCs compared to WT. We defined the LCH translatome by analyzing total and polysome-bound RNA from BMDCs using the Anota2seq program, which revealed a BRAF-V600E-mediated selective increase in LPS-induced inflammatory proteins.

Project description:aCGH of human melanoma cell lines comparing parental (drug sensitve) vs isogenic drug resistant-derived subline Two condition experiment: two BRAF-V600E mutant cell lines (drug sensitive - parental baseline) vs two derived sublines after chronic exposure to the MEK inhibitor trametinib (drug resistant) are compared

Project description:The genome-wide miRNA expression analysis was performed in clinical samples, comprising 15 BRAF-mutant and 15 non-KRAS/BRAF-mutant colorectal cancers by using a SurePrint G3 Human miRNA microarray.