Project description:PCYT2 inhibits epithelial-to-mesenchymal transition in colorectal cancer by elevating YAP1 phosphorylation

Project description:Pcyt2 defient mice has metabolic syndrome and insulin resistance. We used microarray to study the gene expression of these mice to understand the global program of gene expression underlying the metabolic syndrome, obesity and insulin resistance. 2 month-old Pcyt2 deficient mice and age matched control mice liver tissues were choosen for RNA extraction and gene expression using Affymetrix microarray.

Project description:The conditions of the tumor microenvironment, such as nutrient starvation, play critical roles in cancer progression. However, the role of glutamine deprivation in cancer progression is not studied as extensively as that of hypoxia. Here, we show that glutamine starvation triggered down-regulation of PCYT2 by stimulating accumulation of PEtn. Interestingly, glutamine upregulated series of glutamine-responsive genes, not only PCYT2. Furthermore, glutamine-responsive genes were associated with overall survival of cancer patients. Thus, our findings show that glutamine responsive genes such as PCYT2 are key for progression of cancer cells, partly protecting cancer cells to glutamine starvation.

Project description:To investigate the cosequence of Pcyt2 deletion in the early myotome, we established Myf5Cre-Pcyt2 mouse line in which each target gene has been depleted in the early developing myotome and onwards in the mature muscle. We then performed gene expression profiling analysis using data obtained from RNA-seq of 4 different cells at two time points.

Project description:Hearts were collected from Pcyt2+/- male and female mice at 8 months of age The microarray approach allows the investigation of gene expression changes of all genes in Pcyt2+/- male and female hearts.

Project description:Hearts were collected from Pcyt2+/- male and female mice at 8 months of age The microarray approach allows the investigation of gene expression changes of all genes in Pcyt2+/- male and female hearts.

Project description:Pcyt2 defient mice has metabolic syndrome and insulin resistance. We used microarray to study the gene expression of these mice to understand the global program of gene expression underlying the metabolic syndrome, obesity and insulin resistance.

Project description:Metastasis suppressor genes (MSGs) have contributed to an understanding of regulatory pathways unique to the lethal metastatic process. When re-expressed in experimental models, MSGs block cancer spread to, and colonization of distant sites without affecting primary tumor formation. On a single MSG basis, genes have been identified with expression patterns inverse to a MSG, and found to encode functional, druggable signaling pathways. We now hypothesize that common signaling pathways mediate the effects of many MSGs. By gene expression profiling of human MCF7 breast carcinoma cells expressing a scrambled siRNA or siRNAs to each of 19 validated MSGs (NME1, BRMS1, CD82, CDH1, CDH2, CDH11, CASP8, MAP2K4, MAP2K6, MAP2K7, MAPK14, GSN, ARHGDIB, AKAP12, DRG1, CD44, PEBP1, RRM1, KISS1), we identified genes whose expression was significantly opposite to at least five MSGs. We used microarrays to evaluate the modification in gene expression profile after donregulation of multiple metastasis suppressors (NME1, BRMS1, CD82, CDH1, CDH2, CDH11, CASP8, MAP2K4, MAP2K6, MAP2K7, MAPK14, GSN, ARHGDIB, AKAP12, DRG1, CD44, PEBP1, RRM1, KISS1) in the breast cancer cell line, MCF7. MCF7 cell line was transfected with siRNA targeting each of 19 metastasis suppressors (NME1, BRMS1, CD82, CDH1, CDH2, CDH11, CASP8, MAP2K4, MAP2K6, MAP2K7, MAPK14, GSN, ARHGDIB, AKAP12, DRG1, CD44, PEBP1, RRM1, KISS1). Two siRNA sequences (siRNA1 and siRNA2) were used for each metastasis suppressor. Two time points (48hr and 96hr) were considered as end of transfection in order to measure early and late effects of the metastasis suppressors downregulation.

Project description:Yes-associated protein 1 (YAP1) is an effector of Hippo pathway, which is critical for regulating organ size, cell proliferation and tumor growth in mammals. YAP1 is known to be involved in tumorigenesis in several tissues, yet its role in colorectal cancer(CRC) is not established. To investigate the effect of YAP1 in CRC, we used microarrays to compared human colon cancer cell line HCT116 transfected with a control non-targeting siRNA to cells and transfected with siRNA targeting YAP1.

Project description:Current therapy against colorectal cancer (CRC) is based on DNA-damaging agents that remain ineffective in a proportion of patients. Whether and how non-curative DNA damage-based treatment affects tumor cell behavior and patient outcome is primarily unstudied. Using CRC patient-derived organoids (PDO)s, we show that sublethal doses of chemotherapy (CT) does not select previously resistant tumor populations but induces a quiescent state specifically to TP53 wildtype (WT) cancer cells, which is linked to the acquisition of a YAP1-dependent fetal phenotype. Cells displaying this phenotype exhibit high tumor-initiating and metastatic activity. Nuclear YAP1 and fetal traits are present in a proportion of tumors at diagnosis and predict poor prognosis in patients carrying TP53 WT CRC tumors. We provide data indicating the higher efficacy of CT together with YAP1 inhibitors for eradication of therapy resistant TP53 WT cancer cells. Together these results identify fetal conversion as a useful biomarker for patient prognosis and therapy prescription.