Project description:We hypothesized if targeting of CDCA8 with small interfering (si) RNA could inhibit HCC progression. We also investigated molecular mechanism to mediate HCC cell death caused by CDCA8 silencing. To accomplish this, Huh1 and Huh7 human HCC cells were transfected with CDCA8 siRNA and tested for growth inhibition and apoptotic induction using MTS, FACS and microscopic analysis. To obtain insights into the molecular changes in response to CDCA8 knockdown, global changes in gene expression were examined using RNA sequencing. As results, siRNA silencing of CDCA8 inhibited HCC cell growth by blocking cell-cycle progression and inducing apoptosis. RNA sequencing showed that, representatively, the anti-proliferative effects were driven by a subset of molecular alterations including the upregulation of tumor suppressive ATF3 and GADD34 genes, whereas a key regulator of cell growth and invasiveness BGLAP was repressed. Subsequent Western blotting also revealed that CDCA8 silencing decreases the levels of pro-caspase 3 and PARP-1, accelerating apoptotic signaling in HCC cells. In addition, targeting CDCA8 effectively suppressed HCC tumor growth growth in a murine xenograft model. Taken together, these findings suggest that CDCA8 could be a promising molecular target for systemic therapy of HCC.

Project description:siRNA-mediated inhibition compared to untreated cells and cells transfected with nonsense siRNA Together with far upstream element binding protein (FBP), the FBP-interacting repressor (FIR) represents a molecular tool for the transcriptional fine tune regulation of target genes. Previous evidence indicates that strong overexpression of FBP in human hepatocellular carcinoma (HCC) supports tumor growth and correlates with poor patient prognosis. However, the role of the transcriptional repressor FIR in hepatocarcinogenesis remains poorly delineated. We show that overexpression of FIR correlates with tumor dedifferentiation and tumor cell proliferation in about 60% of primary HCCs. Elevated FIR levels are associated with genomic gains of the fir gene locus at chromosome 8q24.3 in human HCC specimens. In vitro, nuclear enrichment of FIR supports HCC cell proliferation and migration. Expression profiling of HCC cells after siRNA-mediated silencing of FIR identified the transcription factor DP-1 (TFDP1) as a transcriptional target of FIR. Surprisingly, FIR stimulates the expression of FBP in a TFDP1/E2F-dependent manner. FIR splice variants lacking or containing exon 2 and/or exon 5 are expressed in the majority of HCCs. Specific inhibition of FIR isoforms with and without exon 2 revealed that all FIR splice variants facilitate tumor-supporting effects. This finding was confirmed in xenograft transplantation experiments with lentiviral-infected shRNA targeting all FIR variants as well as FIR with and without exon 2. In summary, high-level nuclear FIR does not facilitate repressor properties but supports tumor growth in HCC cells. Thus, the pharmacological inhibition of FIR might represent a promising therapeutic strategy for HCC patients. Expression profiling of cells transfected with scrambled/nonsense siRNA (control), and after siRNA-mediated FIR inhibition.

Project description:Ribosomal protein L9 (RPL9), a component of the 60S subunit, is up-regulated in human colorectal cancer (CRC). We thus hypothesized if targeting of RPL9 with small interfering (si) RNA could inhibit CRC progression. We also investigated molecular mechanism to mediate CRC cell death caused by RPL9 silencing. HCT116 and HT29 human CRC cells were transfected with RPL9 siRNA and tested for growth inhibition and apoptotic induction using MTS, FACS and microscopic analysis. To obtain insights into the molecular changes in response to RPL9 knockdown, global changes in gene expression were examined using RNA sequencing. As a result, RPL9 silencing caused inhibition of CRC cell growth through induction of apoptotic cell death. RNA sequencing revealed that RPL9-specific knockdown led to dysregulation of 918 genes in HCT116 and 3178 genes in HT29 cells. Among those, 296 genes showed the same directional regulation (128 up- and 168 down-regulated genes), including up-regulation of tumor suppressors such as KLF6 and ATF3, and were considered as a common RPL9 knockdown signature. Western blotting proved that down-regulation of RPL9 was accompanied with the decrease in the levels of PARP-1 and pro-caspase 3, accelerating apoptotic signaling. Of importance, targeting RPL9 significantly inhibited CRC growth in a murine xenograft model. In conclusion, these results suggest that inhibition of RPL9 expression could be an attractive option for molecular targeted therapy of colorectal cancer.

Project description:siRNA-mediated inhibition compared to untreated cells and cells transfected with nonsense siRNA Together with far upstream element binding protein (FBP), the FBP-interacting repressor (FIR) represents a molecular tool for the transcriptional fine tune regulation of target genes. Previous evidence indicates that strong overexpression of FBP in human hepatocellular carcinoma (HCC) supports tumor growth and correlates with poor patient prognosis. However, the role of the transcriptional repressor FIR in hepatocarcinogenesis remains poorly delineated. We show that overexpression of FIR correlates with tumor dedifferentiation and tumor cell proliferation in about 60% of primary HCCs. Elevated FIR levels are associated with genomic gains of the fir gene locus at chromosome 8q24.3 in human HCC specimens. In vitro, nuclear enrichment of FIR supports HCC cell proliferation and migration. Expression profiling of HCC cells after siRNA-mediated silencing of FIR identified the transcription factor DP-1 (TFDP1) as a transcriptional target of FIR. Surprisingly, FIR stimulates the expression of FBP in a TFDP1/E2F-dependent manner. FIR splice variants lacking or containing exon 2 and/or exon 5 are expressed in the majority of HCCs. Specific inhibition of FIR isoforms with and without exon 2 revealed that all FIR splice variants facilitate tumor-supporting effects. This finding was confirmed in xenograft transplantation experiments with lentiviral-infected shRNA targeting all FIR variants as well as FIR with and without exon 2. In summary, high-level nuclear FIR does not facilitate repressor properties but supports tumor growth in HCC cells. Thus, the pharmacological inhibition of FIR might represent a promising therapeutic strategy for HCC patients.

Project description:The current standard-of-care for advanced liver cancer is limited. Therefore, there is an urgent need for development of novel molecular targeted therapy. Increase of WEE1 kinase activity through an epigenetic regulation plays an important role in the development of hepatocellular carcinoma (HCC). Here we demonstrated that WEE1 siRNA silencing caused inhibition of HCC cell growth through blockade of cell cycle progression and induction of apoptosis. The anti-proliferative effects were driven by a subset of molecular alterations including the upregulation of cdk inhibitor p21 and the downregulation of AKT1, CDK2, cyclin B1 (CCNB1), PARP1 and GPAM which are functionally involved in control of cell cycle, apoptosis and lipid metabolism. Systemic delivery of a modified WEE1 siRNA encapsulated in lipid nanoparticles significantly inhibited human HCC growth in murine xenograft models, and increased mice survival. Wee1 silencing in tumor cells also resulted in a strong inhibition of lipogenesis (SREBP1C, FAS) and caused a marked decrease in fat accumulation. Of importance, knockdown of WEE1 dramatically reduced the portion of liver cancer stem cells (CSCs) population through co-downregulation of cancer stemness genes and weakened the capacity of sphere formation and the ability of cancer cell migration. Our findings suggest that the epigenetic modifier WEE1 functionally involve to HCC lipid metabolism and CSC-like phenotype maintenance and that molecular targeting of WEE1 may be an effective systemic therapy for prevention of tumor recurrence via elimination of CSCs in liver tumor microenvironment.

Project description:ChREBP was stably overexpressed in the liver of C57BL/6J mice through the use of the sleeping beauty transposon system. ChREBP overexpression resulted in HCC tumor development in 12 months. We used microarray analysis to detail the global program of gene expression in ChREBP overexpressing tumors compared to non-tumoral adjacent tissue or compared with normal liver samples from C57BL/6J mice. WE then identified distinct classes of up and down regulated genes.

Project description:siRNA-mediated inhibition compared to untreated cells and cells transfected with nonsense siRNA. Loss of contact inhibition and anchorage-independent growth are hallmarks of cancer cells. In this context, frequent inactivation of the Hippo pathway and subsequent nuclear enrichment of the transcriptional coactivator yes-associated protein (YAP) uncouple cell proliferation and anti-apoptosis from contact inhibition, associated with uncontrolled tumor growth and tumor cell dissemination. However, general molecular mechanisms of tumor-supporting YAP activity remain unclear. In this study, we show that overexpression and nuclear accumulation of YAP in hepatocytes and hepatocellular carcinoma (HCC) cells leads to an induction of the Notch pathways through transcriptional activation of the Notch ligand jagged-1 (Jag-1). This induction of Jag-1 strictly depends on binding of YAP to TEAD4 and does not rely on WNT/β-catenin pathway activity. Co-activation of YAP, TEAD4, Jag-1, and the Notch target gene Hes-1 was significantly higher in HCC from patients with poor prognosis. High-level expression and nuclear accumulation of YAP correlates with Jag-1/Notch activation not only in human HCC tissues, but also in colon and pancreatic cancer tissues. Thus, our data demonstrate that YAP-driven co-activation of the Jag-1/Notch pathway in part facilitates oncogenic properties of the oncogene YAP not only in HCC but also in different gastrointestinal malignancies. Expression profiling of untreated HCC cell lines (control 1), cells transfected with scrambled/nonsense siRNA (control 2), and after siRNA-mediated YAP inhibition.

Project description:Increased ?-fetoprotein (AFP) levels have been reported to predict a poor prognosis in hepatocellular carcinoma (HCC). We assessed the mechanism of AFP involvement in the progression of HCC and determined whether AFP could be a molecular target. We used human HCC cell lines to assess proliferation and apoptosis response to exogenous AFP. We introduced AFP small interfering RNA (siRNA) into HCC cell lines to examine whether it could inhibit cell proliferation and anti-apoptotic properties. The effects of systemically introduced AFP siRNA were assessed using a tumor xenotransplantation model. The effects of AFP on gene expression in HCC cell lines and human HCC specimens were examined. Exogenous AFP induced cell proliferation dose-dependently and inhibited apoptosis induced by 5-fluorouracil (5-FU) in all cell lines examined. AFP siRNA inhibited the proliferation of AFP-producing HCC cell lines and induced apoptosis in co-cultures with 5-FU. Tumor sizes in mice treated with AFP siRNA were significantly smaller than those in controls. AFP siRNA administration in mice induced a low proliferation index and a high apoptosis index in tumors. cDNA microarray analysis, reverse transcription-polymerase chain reaction (RT-PCR), and Western blot using HepG2 and HLE cells with AFP showed that AFP reduced expression of genes related to apoptosis (DFFB) and tumor suppression (NDRG2). Expression of these molecules was also suppressed in human HCC tissues that overexpress AFP. AFP is not only a passive tumor marker, but also an active tumor stimulator through several mechanisms. AFP siRNA introduction may be of possible therapeutic use for HCC. Keywords: Genetic modification Two-condition experiment, Control vs. AFP-stimulated cells.

Project description:Increased α-fetoprotein (AFP) levels have been reported to predict a poor prognosis in hepatocellular carcinoma (HCC). We assessed the mechanism of AFP involvement in the progression of HCC and determined whether AFP could be a molecular target. We used human HCC cell lines to assess proliferation and apoptosis response to exogenous AFP. We introduced AFP small interfering RNA (siRNA) into HCC cell lines to examine whether it could inhibit cell proliferation and anti-apoptotic properties. The effects of systemically introduced AFP siRNA were assessed using a tumor xenotransplantation model. The effects of AFP on gene expression in HCC cell lines and human HCC specimens were examined. Exogenous AFP induced cell proliferation dose-dependently and inhibited apoptosis induced by 5-fluorouracil (5-FU) in all cell lines examined. AFP siRNA inhibited the proliferation of AFP-producing HCC cell lines and induced apoptosis in co-cultures with 5-FU. Tumor sizes in mice treated with AFP siRNA were significantly smaller than those in controls. AFP siRNA administration in mice induced a low proliferation index and a high apoptosis index in tumors. cDNA microarray analysis, reverse transcription-polymerase chain reaction (RT-PCR), and Western blot using HepG2 and HLE cells with AFP showed that AFP reduced expression of genes related to apoptosis (DFFB) and tumor suppression (NDRG2). Expression of these molecules was also suppressed in human HCC tissues that overexpress AFP. AFP is not only a passive tumor marker, but also an active tumor stimulator through several mechanisms. AFP siRNA introduction may be of possible therapeutic use for HCC. Keywords: Genetic modification

Project description:Determine the effect and specificity of HDAC2 siRNA compared to SAHA inhibition of HDAC2 in hepatocellular carcinoma (HCC)