Project description:We report dysregulated genes upon silencing UCHL1 in high-grade serous ovarian cancer cell line, Kuramochi.

Project description:Knocking down of CSE1L made ovarian cancer cells, but not other cancer and normal cell lines, sensitized to cisplatin and triggered apoptosis. The nuclear localization in ovarian cancer cells suggested that CSE1L might primarily regulate transcription. . Using microarrays, we evaluated the expression profiles of CSE1L silenced SK-OV-3 and TOV-21G cells

Project description:Using an oligonucleotide array, we undertook a genome-wide search for genes upregulated following treatment with a demethylating agent in two CRC cell lines. Promoter methylation status was determined in 12 CRC cell lines and 11 CRC tissues. After the treatment, 350 genes were upregulated 1.5 fold or more. Six genes (PAGE-5, VCX, MAEL, GAGED2, UCHL1, and GAGE7), which contained putative 5'CpG islands in their promoter regions, were confirmed to be silenced in CRC cell lines. The median level of UCHL1 gene expression in cell lines with methylation was significantly lower than that in cell lines without methylation (P = 0.032). The level of methylation of UCHL1 was significantly higher in tumors than in corresponding normal mucosae (P = 0.005). Chemical genomic screening led to the identification of a specific promoter subject to hypermethylation in CRC. These results suggest that aberrant promoter methylation is the primary mechanism of transcriptional silencing of the UCHL1 gene and that methylation of the UCHL1 gene promoter increases during the development and progression of CRC Keywords: Methylation Analysis This study explored methylation-silenced genes in colorectal cancer (CRC) cell lines. Using an oligonucleotide array, a genome-wide search for genes upregulated following treatment with a demethylating agent, 5-aza-2â??-deoxycitidine, in two CRC cell lines, DLD-1 and HT-29, was performed. Promoter methylation status of candidate genes silenced and upregulated following the treatment was determined in 12 CRC cell linesby methylation-specific PCR.

Project description:Ovarian cancer cells treated with CDDP showed up-regulation of IRF-1 and IRF-7. The expression of putative IRF-1 target genes was modulated. CDDP triggered nuclear translocation of IRF-1 and IRF-1 silencing re-orchestrated the expression profiles of CDDP treated cells. Using microarrays, we evaluated the expression profiles of IRF-1 silenced SK-OV-3.

Project description:Using an oligonucleotide array, we undertook a genome-wide search for genes upregulated following treatment with a demethylating agent in two CRC cell lines. Promoter methylation status was determined in 12 CRC cell lines and 11 CRC tissues. After the treatment, 350 genes were upregulated 1.5 fold or more. Six genes (PAGE-5, VCX, MAEL, GAGED2, UCHL1, and GAGE7), which contained putative 5'CpG islands in their promoter regions, were confirmed to be silenced in CRC cell lines. The median level of UCHL1 gene expression in cell lines with methylation was significantly lower than that in cell lines without methylation (P = 0.032). The level of methylation of UCHL1 was significantly higher in tumors than in corresponding normal mucosae (P = 0.005). Chemical genomic screening led to the identification of a specific promoter subject to hypermethylation in CRC. These results suggest that aberrant promoter methylation is the primary mechanism of transcriptional silencing of the UCHL1 gene and that methylation of the UCHL1 gene promoter increases during the development and progression of CRC Keywords: Methylation Analysis

Project description:Analysis of miRNA profiles in mucinous ovarian cancer cells that silenced PRKRA.

Project description:Knocking down of CSE1L made ovarian cancer cells, but not other cancer and normal cell lines, sensitized to cisplatin and triggered apoptosis. The nuclear localization in ovarian cancer cells suggested that CSE1L might primarily regulate transcription. .

Project description:We compared miRNAs expression in mucinous ovarian cancer cell between treated with siPRKRA and contrl siRNA. We hypothesize that PRKRA regulates chemosensitivity in mucinous ovarian cancer. Therefore, we aim to idetify the PRKRA-mediated miRNA which regulate chemosensitivity in mucinous ovarian cancer.

Project description:Ovarian cancer often progresses by disseminating to the peritoneal cavity, but how the tumor cells evade host immunity during this process is poorly understood. Programmed cell death 1 ligand 1 (PD-L1) is known to suppress immune system and to be an unfavorable prognostic factor in ovarian cancer. The purpose of this study was to elucidate the function of PD-L1 in peritoneal dissemination. Positive cytology in ascites was a significant poor prognostic factor in ovarian cancer. Microarray profiles of cytology-positive cases showed significant correlations with Gene Ontology terms related to immune system process. Microarray and immunohistochemistry in human ovarian cancer revealed significant correlation between PD-L1 expression and positive cytology. PD-L1 expression on mouse ovarian cancer cells was induced upon encountering lymphocytes in the course of peritoneal spread in vivo and upon co-culturing with lymphocytes in vitro. Tumor cell lysis by CTLs was attenuated when PD-L1 was overexpressed and promoted when it was silenced. PD-L1 overexpression also inhibited gathering and degranulation of CTLs. In mouse ovarian cancer dissemination models, depleting PD-L1 expression on tumor cells resulted in inhibited tumor growth in the peritoneal cavity and prolonged survival. Restoring immune function by inhibiting immune-suppressive factors such as PD-L1 may be a promising therapeutic strategy for peritoneal dissemination. Genome-wide transcriptional changes in human ovarian cancer tissue from ascites-cytology-positive or -negative patients.

Project description:In this study, we examined the differential RNA profile of SORBS2-depleted ovarian cancer cells compared with control cells