Project description:Epigenome analysis of HELLS in liver cancer

Project description:Epigenome analysis of HELLS in liver cancer [methylation]

Project description:Characterization of transcriptional landscape of HELLS in T-cell lymphoma. ChIP-seq experiments against Histone Marks and RNA-Polymerase II were performed in both control and HELLS knockdown (DOX) cells. ChIP-seq against HELLS was performed in control cells.

Project description:SMARCB1 knockdown in liver cancer cells

Project description:The activating E2F-transcription factors are best known for their dependence on the Retinoblastoma protein and their role in cellular proliferation. E2F3 is uniquely amplified in specific human tumours where its expression is inversely correlated with the survival of patients. Here, E2F3 interaction partners were identified by mass spectrometric analysis. We show that the SNF2-like HELLS interacts with E2F3 in vivo and cooperates with its oncogenic functions. Depletion of HELLS severely perturbs the induction of E2F-target genes, hinders cell cycle re-entry and growth. Using chromatin immmunoprecipitation coupled to sequencing we identified genome-wide targets of HELLS and E2F3. Our analysis revealed that HELLS binds near promoters of active genes, including the trithorax-related MLL1, and co-regulates E2F3-dependent genes. Our analysis is the first to link HELLS with E2F-controlled processes that are critical to establish a proliferative tumour circuitry. Strikingly, just as E2F3, HELLS is overexpressed in human tumours including prostate cancer, indicating that either factor may contribute to the malignant progression of tumours. Our work reveals that HELLS is important for E2F3 in tumour cell proliferation.

Project description:The activating E2F-transcription factors are best known for their dependence on the Retinoblastoma protein and their role in cellular proliferation. E2F3 is uniquely amplified in specific human tumours where its expression is inversely correlated with the survival of patients. Here, E2F3 interaction partners were identified by mass spectrometric analysis. We show that the SNF2-like HELLS interacts with E2F3 in vivo and cooperates with its oncogenic functions. Depletion of HELLS severely perturbs the induction of E2F-target genes, hinders cell cycle re-entry and growth. Using chromatin immmunoprecipitation coupled to sequencing we identified genome-wide targets of HELLS and E2F3. Our analysis revealed that HELLS binds near promoters of active genes, including the trithorax-related MLL1, and co-regulates E2F3-dependent genes. Our analysis is the first to link HELLS with E2F-controlled processes that are critical to establish a proliferative tumour circuitry. Strikingly, just as E2F3, HELLS is overexpressed in human tumours including prostate cancer, indicating that either factor may contribute to the malignant progression of tumours. Our work reveals that HELLS is important for E2F3 in tumour cell proliferation. Examination of E2F3, Hells, and H3K27me3 in 2 cell types.

Project description:Proteomes of Mycoplasma gallisepticum strains with overexpression and knockdown of WhiA transcription factor. The overexpression was introduced on a transposon vector carrying M. gallisepticum whiA gene with strong constitutive promoter and strong SD sequence. The knockdown was made by CRISPRi. dCas9 protein and sgRNA against whiA gene were introduced on a transposon vector.

Project description:NEDD9 is important for lung cancer metastasis. However, the detailed mechanism remains elusive. Using the microarray data generated with human lung cancer cell lines with either NEDD9 overexpression or NEDD9 knockdown, we plan to idnetify important signal pathways regulated by NEDD9. This may explain how NEDD9 excutes its function in lung cancer. We used microarrays to detail the global programme of gene expression underlying cellularisation and identified distinct classes of up-regulated genes during this process. Human lung cancer cell line A549, which has LKB1 loss-of-function mutation and increased expression of NEDD9, was used for two individual NEDD9 knockdown. Human lung cancer cell line CRL-5907, which has wild-type LKB1 and low NEDD9 expression level, was used for NEDD9 overexpression. The microarray was done in A549 cells, A549 cells with two different NEDD9 knockdown; CRL-5907 cells and CRL-5907 cells with NEDD9 overexpression.

Project description:We used novel genetically engineered mouse models to investigate the role of HELLS during tumorigenesis. Loss of HELLS drastically decreased the incidence of retinoblastoma, delayed tumor progression, and increased overall survival. Tumors from Rb1/p107 DKO and Rb1/p107/Hells TKO mice were analyzed for gene expression using RNA-seq.

Project description:Overexpression and knockdown experiment for circCSNK1G3