Project description:We report a reprogrammable mouse system in which reprogramming factor expression in vivo can be controlled temporally by treatment with doxycycline (Dox). Transient expression of reprogramming factors in vivo results in tumor development in various tissues, consisting of undifferentiated dysplastic cells. We analyzed the kidney tumors developed in reprogrammable mice for global gene expressions and DNA methylations. Reprogrammable mice at 4 weeks of age were treated with Dox for 7 days followed by the withdrawal. Seven days after the withdrawal, kidney tumors were analyzed for gene expressions and DNA methylations with microarray and RRBS method, respectively. Normal kidney tissue at the same age and ES cells were analyzed as controls. To examine the early changes of gene expressions, transgene-expressing kidney cells were FACS sorted and they are utilized for microarray analysis. Primary liver tumors in reprogrammable mice and transplanted secondary kidney tumors in the subcutaneous tissues of immnodeficient mice were also analyzed for gene expressions.

Project description:We report a reprogrammable mouse system in which reprogramming factor expression in vivo can be controlled temporally by treatment with doxycycline (Dox). Transient expression of reprogramming factors in vivo results in tumor development in various tissues, consisting of undifferentiated dysplastic cells. We analyzed the kidney tumors developed in reprogrammable mice for global gene expressions and DNA methylations.

Project description:We report a reprogrammable mouse system in which reprogramming factor expression in vivo can be controlled temporally by treatment with doxycycline (Dox). Transient expression of reprogramming factors in vivo results in tumor development in various tissues, consisting of undifferentiated dysplastic cells. We analyzed the kidney tumors developed in reprogrammable mice for global gene expressions and DNA methylations.

Project description:Progressing and regressing liver tumor tissues (depending on the group) were subjected to miRNA profiling to identify the miRNA changes occuring during tumor development and regression. Conditional doxycyline-regulatable c-Myc-driven mice get liver tumors following doxycycline (Dox) withdrawal from their diet. When mice are re-administered Dox through their diet, tumors start to regress.

Project description:Epigenetic changes such as DNA methylations regulate gene expression patterns in response to environmental cues including infections. Microbial infections induced DNA methylation may play a potential role in modulating host-immune response. In the present study, we sought to determine DNA methylation changes induced by the mastitis causing Escherichia coli (E coli) in porcine mammary epithelial cells (PMEC). Two time points (3hr and 24 hr) were selected based on the specific transcriptomic changes as early and late phase immune responses. Genome-wide methylation information was obtained to identify significant differential methylation patterns in E coli infected PMEC.

Project description:In this study, we validated 992 previously identified differentially methylated regions (DMRs) in colorectal precancerous lesions compared to adjacent normal mucosa in a new series of 59 prospectively collected lesions and matched normal tissue using targeted bisulfite sequencing. Strong differences in methylation level were observed across the full set of validated DMRs. Based on the mean methylation levels of a panel of 30 selected DMRs tumors could be accurately classified. We thus provide a large list of validated DNA markers to be exploited in the development of noninvasive, colorectal tumor screening assays.

Project description:PANC-1Tet/ZIC2 and PANC-1Tet/empty were established from human pancreatic cancer cell line PANC-1. PANC-1Tet/ZIC2 cells express FLAG-tagged human ZIC2 on the withdrawal of DOX. On the other hand, PANC-1Tet/empty was transfected an empty vector for the control experiment. To identify ZIC2 target genes, total RNAs were purified from the cells before and 48 hours after the DOX withdrawal. Gene expression profiles were analyzed by AGILENT human 4x44k cDNA microarray. As well as ZIC2-inducible system, we performed ZIC2-knockdown experiments in PANC-1 human pancreatic cancer cells. After 96 hours transfection of siRNAs for ZIC2 and its control, total RNAs were purified and gene expression profiles were analyzed by AGILENT human 4x44k cDNA microarray.

Project description:PANC-1Tet/ZIC2 and PANC-1Tet/empty were established from human pancreatic cancer cell line PANC-1. PANC-1Tet/ZIC2 cells express FLAG-tagged human ZIC2 on the withdrawal of DOX. On the other hand, PANC-1Tet/empty was transfected an empty vector for the control experiment. To identify ZIC2 target genes, total RNAs were purified from the cells before and 48 hours after the DOX withdrawal. Gene expression profiles were analyzed by AGILENT human 4x44k cDNA microarray. As well as ZIC2-inducible system, we performed ZIC2-knockdown experiments in PANC-1 human pancreatic cancer cells. After 96 hours transfection of siRNAs for ZIC2 and its control, total RNAs were purified and gene expression profiles were analyzed by AGILENT human 4x44k cDNA microarray. ZIC2 target genes were identified in PANC-1 cells. Gene expression profiles of PANC-1Tet/ZIC2 and PANC-1Tet/empty cells were analyzed by AGILENT human 4x44k cDNA microarray before and 48 hours after the DOX withdrawal. As well as ZIC2-inducible system, gene expression profiles of control- and ZIC2-knocdown PANC-1 cells were also analyzed by AGILENT human 4x44k cDNA microarray.

Project description:To compare the the genomic profile of MEFs and induced embryonic Sertoli-like cells following 2 weeks of dox withdrawal.

Project description:Overexpression of miR-155 in hematological tissue leads to the onset of lymphoma, and Tet-off shutdown of this overexpression reverses the disease phenotype in mir-155LSLtTA mice. This study compares the gene expression profiles of tumors with miR-155 overexpression and withdrawal. Examination of mRNA from 2 conditions: miR-155 overexpressing tumors and miR-155 overexpressing tumors from mice exposed to doxycycline (DOX) for 16hrs prior to harvest; samples in triplicate; tumors generated in flanks of nude mice by subcutaneous injection of splenic cells from diseased mir-155LSLtTA mice.