Project description:Haploinsufficient phenotypes promote selection of PTEN and ARID1A deficient clones in human colon.

Project description:To investigate the roll of ARID1A in the regulation of effector CD8+ T cell responses, we crossed GzmB-Cre P14 Thy1.1 mice with Arid1a-fl/fl mice to generate Arid1a Het and KO mice. We then performed gene expression profiling analysis of WT, Het, and KO cells in vivo at d3, d5, and d8 post-LCMV Armstrong infection.

Project description:To investigate the role of ARID1A in the regulation of effector CD8+ T cell responses, we crossed GzmB-Cre P14 Thy1.1 mice with Arid1a-fl/fl mice to generate Arid1a Het and KO mice. We then performed chromatin accessibility profiling analysis by ATAC-seq in WT, Het, and KO cells in vivo at d0, 48h in vitro activated, d3, d5, and d8 post-LCMV Armstrong infection.

Project description:The current study defines the how ERG, PTEN, and AR inteact to regulate the transciptome in established prostate cancers. Prostate cancer organoids were derived from established prostate cancer in GEM models harboring ERG over-expression and/or loss of PTEN and cultured in vitro using prostate epithelial organoid culture conditions. The established organoids were then isolated as individual clones in triplicate and CRISPR strategies were employeed to knock out ERG and AR. RNA was isolated under physiologic steady state growth conditions and 24 hour treatment with the AR inhbitor MDV3100 in a subset of ERG-PTEN CRISPR ERG organoids.

Project description:Mice developed ovarian tumors after Arid1a and Pten double knockout. Gene expression profiles of 5 such ovarian tumors were compared with those of 4 normal ovaries. The differentially expressed genes were then used to investigate the similarity between the mouse ovarian tumors and major subtypes of human ovarian cancers. Total RNA obtained from the mouse ovarian tumors developing after Arid1a and Pten knockout compared to normal mouse ovaries.

Project description:Somatic mutations in ARID1A (AT-rich interactive domain-containing protein 1A) are present in approximately 25% of bladder cancers (BC) and are associated with poor prognosis. With a view to discover effective treatment options for ARID1A-deficient BC patients, we set out to identify targetable effectors dysregulated consequent to ARID1A deficiency. Integrative analyses of ARID1A depletion in normal organoids and data mining in publicly available datasets revealed upregulation of DNA repair and cell cycle-associated genes consequent to loss of ARID1A and identified CHEK1 (Checkpoint kinase 1) and chromosomal passenger complex member BIRC5 (Baculoviral IAP Repeat Containing 5) as therapeutically drug-able candidate molecular effectors. Ex vivo treatment of patient-derived BC tumoroids with clinically advanced small molecule inhibitors targeting CHEK1 or BIRC5 was associated with increased DNA damage signalling and apoptosis, and selectively induced cell death in tumoroids lacking ARID1A protein expression. Thus, integrating public datasets with patient-derived organoid modelling and ex-vivo drug testing can uncover key molecular effectors and mechanisms of oncogenic transformation, potentially leading to novel therapeutic strategies. Our data point to ARID1A protein expression as a suitable candidate biomarker for the selection of BC patients responsive to therapies targeting BIRC5 and CHEK1.

Project description:To investigate the mechanism underlying the effect of Brn2-loss we extracted mRNA from Braf-Pten-Brn2-wt, Braf-Pten-Brn2-het, and Braf-Pten-Brn2-hom mouse melanomas and performed microarray-based transcriptome analysis.

Project description:To investigate the mechanism underlying the effect of Brn2-loss we extracted mRNA from Braf-Pten-Brn2-wt, Braf-Pten-Brn2-het, and Braf-Pten-Brn2-hom mouse melanomas and performed microarray-based transcriptome analysis.

Project description:To discover differentially expressed proteins in somatosensory cortex of Pten haploinsufficient mice at adolescence (P30). Result reveals signatures of perturbation of dendritic spine development, keratinization and hamartoma. These are collectively respresentating molecular perturbation of neuropathology of PTEN Harmatoma Tumor Syndrome (PHTS).

Project description:The current study defines the how ERG, PTEN, and AR inteact to regulate the transciptome in established prostate cancers. Prostate cancer organoids were derived from established prostate cancer in GEM models harboring ERG over-expression and/or loss of PTEN and cultured in vitro using prostate epithelial organoid culture conditions. The established organoids were then isolated as individual clones in triplicate and CRISPR strategies were employeed to knock out ERG and AR. ChIP seq was performed under standard growth and media conditions.