Project description:FBXW7 modulates stress response by post-translational modification of HSF1 HSF1 orchestrates the heat-shock response upon exposure to heat stress and activates a transcriptional program vital for cancer cells. In this study we assayed for genome-wide localization of HSF1 enrichment in the HCT116 FBXW7 KO colon cells and their wild type counterpart in untreated cells and upon heat shock. These results revealed that accumulation of nuclear HSF1 in FBXW7 KO cells results in rewiring of the HSF1 transcriptional program. Five million cells were used for the ChIP and precipitated using 5 micrograms of antibody (cell signaling, 4356) against human HSF1
Project description:HSF1 orchestrates a transcriptional program vital for cancer cells. In this study we assayed for genome-wide localization of HSF1 enrichment in the 451Lu melanoma in untreated cells. These results revealed a transcriptional program enriched for metastasis-related genes. Twenty million cells were used for the ChIP and precipitated using 5 micrograms of antibody (cell signaling, 4356) against human HSF1
Project description:FBXW7 modulates stress response by post-translational modification of HSF1 HSF1 orchestrates the heat-shock response upon exposure to heat stress and activates a transcriptional program vital for cancer cells. Genes positively regulated by HSF1 show increeased expression during heat shock while their expression is reduced during recovery. Genes negatively regulated by HSF1 show the opposite pattern. In this study we utilized the HCT116 FBXW7 KO colon cell line and its wild type counterpart to monitor gene expression changes during heat shock (42oC, 1 hour) and recovery (37oC for 2 hours post heat shock) using RNA sequencing. These results revealed that the heat-shock response pathway is prolonged in cells deficient for FBXW7. Whole RNA was extracted from 1 million HCT116 WT or FBXW7KO cells using the RNAeasy kit (Qiagen) according to the manufacturer’s protocol. Poly-A+ (magnetic oligodT-containing beads (Invitrogen)) or Ribominus RNA was used for library preparation. cDNA preparation and strand-specific library construction was performed using the dUTP method. Libraries were sequenced on the Illumina HiSeq 2000 using 50bp single-read method. Differential gene expression analysis was performed for each matched recovery versus heat-shock pairs, separately in each biological replicate and cell line (WT or KO). Two types of comparisons were tested: (a) WT recovery vs WT heat shock, (b) FBXW7 KO recovery vs heat shock.
Project description:T-cell acute lymphoblastic leukemia (T-ALL) is an immature hematopoietic malignancy driven mainly by oncogenic activation of NOTCH1 signaling. In this study we assayed for genome-wide localization of JMJD3 enrichment. This piece of data was further integrated to expression changes using RNA sequencing as well as ChIP-Sequencing analysis of H3K27me3 upon genomic/genetic knock-down or chemical inhibition of JMJD3 and UTX. These results, coupled to genomic analysis of primary samples for the genomic status of the UTX gene in T-ALL, helped us to identify a hitherto unknown role of JMJD3 as an oncogenice facilitator in leukemia whereas UTX plays a tumor suppressor role. JMJD3 ChIP: 10 million cells were used for the ChIP and precipitated using 10micrograms of antibody (abgent, AP1022a) against human JMJD3.
Project description:T-cell acute lymphoblastic leukemia (T-ALL) is an immature hematopoietic malignancy driven mainly by oncogenic activation of NOTCH1 signaling. In this study we chemically inhibited the H3K27me3 demethylase JMJD3 using the GSKJ4 inhibitor and assayed for genome-wide changes in H3K27me3 and JMJD3 enrichment. This piece of data was further integrated to expression changes using RNA sequencing as well as ChIP-Sequencing analysis of H3K27me3 upon genomic knock-down of JMJD3 and UTX. These results, coupled to genomic analysis of primary samples for the genomic status of the UTX gene in T-ALL, helped us to identify a hitherto unknown role of JMJD3 as an oncogenice facilitator in leukemia whereas UTX seems to play a tumor suppressor role. Histone ChIP: Half to one million cells were treated with micrococcal nuclease (MNASE) to generate mononucleosomal particles and an adaptation of the Upstate ChIP protocol was used.
Project description:T-cell acute lymphoblastic leukemia (T-ALL) is an immature hematopoietic malignancy driven mainly by oncogenic activation of NOTCH1 signaling. In this study we abrogated the expression of JMJD3 (KDM6B) and UTX (KDM6A) H3K27me3 demethylases in human T-ALL lines and assayed for genome-wide changes in H3K27me3 levels. This piece of data was further integrated to expression changes using RNA sequencing in the same cells as well as ChIP-Sequencing analysis of H3K27me3 and JMJD3 genome-wide analysis from treatment of T-ALL lines with the GSKJ4 inhibitor. These results, coupled to genomic analysis of primary samples for the genomic status of the UTX gene in T-ALL, helped us to identify a hitherto unknown role of JMJD3 as an oncogenice facilitator in leukemia whereas UTX seems to play a tumor suppressor role. Half to one million cells were treated with micrococcal nuclease (MNASE) to generate mononucleosomal particles and an adaptation of the Upstate ChIP protocol was used.
Project description:In this study,we demonstrated the transcription factor EGR1 is activated by TCM YYJD and such activation mediated YYJD-induced apoptosis in lung cancer cells and provided a novel insight to understand the anti-tumor mechanism of Chinese herb YYJD.
Project description:Rett Syndrome (RTT) is a severe neurological disorder predominantly affecting females, caused by mutations in the methyl CpG binding protein 2 (MECP2) gene. Understanding the pathophysiology of RTT at a cellular and molecular level is crucial for the development of targeted therapies. Our project aims to dissect the molecular underpinnings of RTT using a novel in vitro model system based on a commercially available human neural progenitor cell line, ReNCell. We have engineered multiple distinct ReNCell lines to mimic specific genetic alterations associated with RTT, providing a robust platform for mechanistic studies and drug screening. This cell line carries a point mutation in the MECP2 gene (R133C), a common mutation in RTT patients, which alters the function of the MeCP2 protein. The model will allow us to study the impact of this mutation on neural development and function at a cellular level, providing insights into the disease's neuropathology.
Project description:Wnt/β-catenin signaling is a highly organized biochemical cascade that triggers a gene expression program in the signal-receiving cell. The Wnt/β-catenin-driven transcriptional response is involved in virtually all cellular processes during development, homeostasis, and its deregulation causes human disease. However, outstanding questions remain unanswered. Here, we combined RNA sequencing with CUT&RUN-LoV-U against β-catenin to assess the correlation between β-catenin recruitment to target loci and its effect on target gene expression. To this end, we performed a bulk RNA sequencing analysis on human embryonic stem cells (hESCs) treated with the the GSK3 inhibitor/Wnt activator CHIR99021 (10 mM) for 3 days, and compared them to untreated hESCs. We then correlated the observed gene expression changes with β-catenin binding events identified from a separate experiment (see “Related Accession Number”). We observed that β-catenin binding is associated with both activation and repression of cell-specific gene expression programs, underscoring how Wnt/b-catenin drives complex cell behaviors.