Project description:transcriptome profiling of zebrafish liver tumors comparing with healthy liver tissues Zebrafish liver tumors were induced by exposure to 7,12-dimethylbenz(α)anthracene (DMBA). 5 zebrafish liver tumors and 6 healthy zebrafish livers were used to detect gene signatures in zebrafish liver tumors. A mixture of the 11 total RNA samples was used as the common reference.

Project description:Application of an untargeted liquid chromatography- high resolution mass spectrometry platform for lipidomics profiling of zebrafish liver tissues

Project description:Application of an untargeted liquid chromatography- high resolution mass spectrometry platform for lipidomics profiling of zebrafish liver tissues

Project description:An inducible oncogenic cell line ZFL-ΔRaf1-ER was established, in which oncogenic human Raf-1(ΔRaf1) can be activated in zebrafish liver cells by administration of 4-hydroxytamoxifen (4HT). Transcriptional profilling of the ZFL-ΔRaf1-ER cells with and without administration of 4HT and/or the MEK inhibitor U0126 defined the gene signatures transcriptionally regulated by hyperactive Raf/MEK/MAPK signaling in zebrafish liver cells.

Project description:To study the characteristics and mechanisms of Myc-induced zebrafish liver tumor, next-generation sequencing-based SAGE analyses were used to examine the transcriptomes of tumor and control samples. The results indicated that ribosome proteins were overwhelmingly up-regulated in the Myc-induced liver tumors. Cross-species analyses showed that the zebrafish Myc model correlated well with Myc transgenic mouse models for liver cancers. The Myc-induced zebrafish liver tumors also possessed molecular signatures highly similar to human hepatocellular carcinoma (HCC). Thus, our zebrafish model demonstrated the conserved role of Myc in promoting hepatocarcinogenesis in all vertebrate species.

Project description:An inducible oncogenic cell line ZFL-?Raf1-ER was established, in which oncogenic human Raf-1(?Raf1) can be activated in zebrafish liver cells by administration of 4-hydroxytamoxifen (4HT). Transcriptional profilling of the ZFL-?Raf1-ER cells with and without administration of 4HT and/or the MEK inhibitor U0126 defined the gene signatures transcriptionally regulated by hyperactive Raf/MEK/MAPK signaling in zebrafish liver cells. The ZFL-?Raf1-ER cells were cultured in 12-well plates till confluence. Cell were starved for 4h in plain medium and susequently treated with or without 1µM 4HT and/or 30µM U0126 for 12h. Biological triplications were taken for each condition.

Project description:To study the characteristics and mechanisms of Myc-induced zebrafish liver tumor, next-generation sequencing-based SAGE analyses were used to examine the transcriptomes of tumor and control samples. The results indicated that ribosome proteins were overwhelmingly up-regulated in the Myc-induced liver tumors. Cross-species analyses showed that the zebrafish Myc model correlated well with Myc transgenic mouse models for liver cancers. The Myc-induced zebrafish liver tumors also possessed molecular signatures highly similar to human hepatocellular carcinoma (HCC). Thus, our zebrafish model demonstrated the conserved role of Myc in promoting hepatocarcinogenesis in all vertebrate species. Transcriptome profiling of tumor samples (M+D+) and control samples (M-D-, M+D-, M-D+) were generated by deep sequencing, each in duplicates, using 3' RNA-SAGE on the SOLiD system.

Project description:Zebrafish has been advocated as a cancer model, but little is known about the molecular similarities between zebrafish and human tumors. Comparative analysis of microarray data from zebrafish liver tumors with those from four human tumor types revealed molecular conservation at various levels between fish and human tumors. This approach provides a useful strategy for identifying expression signature that is strongly associated with a disease phenotype. Keywords: Diseased vs normal.

Project description:To compare the characteristics and mechanisms of Myc and xmrk induced zebrafish liver tumor, next generation sequencing-based SAGE analyses were used to examine the transcriptomes of tumor and control samples. The results indicated that relatively small overlaps of significantly deregulated genes and biological pathways among different zebrafish liver tumor models.Nevertheless, they all significantly correlate with advanced or very advanced human hepatocellular carcinoma (HCC). Molecular signature from each oncogene-induced zebrafish liver tumor correlated with only a small subset of human HCC samples, and they share conserved up-regulated pathways. A short list of commonly deregulated genes among different zebrafish liver tumors showed accordant deregulation in the majority of human HCCs, suggesting that they may serve as common diagnosis markers and therapeutic targets.Thus, these transgenic zebrafish models with well-defined oncogene-induced tumors are valuable tools for molecular classification of human HCCs and for understanding of molecular drivers in hepatocarcinogenesis in each human HCC subgroup.

Project description:This SuperSeries is composed of the following subset Series: GSE29307: zebrafish liver tumor signatures GSE29308: Raf/MEK signatures in zebrafish liver cells Refer to individual Series