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Transcriptional Inactivation (transcriptional + inactivation)

Distribution by Scientific Domains
Life Sciences66%
Medical Sciences33%

Selected Abstracts

Transcriptional inactivation of amphotropic murine leukemia virus replication in human cells

JOURNAL OF MEDICAL VIROLOGY, Issue 2 2003
Martin Ploss
Abstract Amphotropic murine leukemia virus (MLV) replicates in cells from various mammalian species including humans and is a potential contaminant in MLV vector preparations for human gene transfer studies. Because MLV replication proceeds through an RNA genome that is generated under the control of viral enhancer and promoter elements, vectors were developed that delete such elements during transduction to reduce the generation of replication-competent virus. It was shown recently that replication of amphotropic MLV in certain human cells is possible without the 75 bp transcription enhancers. It is now demonstrated that enhancer-independent replication requires functional elements within U3 and is repressed by an extended deletion in the U3 region comprising enhancers, promoter and flanking sequences. It is concluded that the transcriptional inactivation of amphotropic MLV in human cells requires the combined deletion of enhancers and of additional elements in U3. J. Med. Virol. 69:267,272, 2003. © 2003 Wiley-Liss, Inc. [source]

Nucleocytoplasmic transport of fluorescent mRNA in living mammalian cells: nuclear mRNA export is coupled to ongoing gene transcription

GENES TO CELLS, Issue 3 2006
Kazuaki Tokunaga
In eukaryotic cells, export of mRNA from the nucleus to the cytoplasm is one of the essential steps in gene expression. To examine mechanisms involved in the nucleocytoplasmic transport of mRNA, we microinjected fluorescently labeled fushi tarazu (ftz) pre-mRNA into the nuclei of HeLa cells. The injected intron-containing ftz pre-mRNA was distributed to the SC35 speckles and exported to the cytoplasm after splicing by an energy-requiring active process. In contrast, the injected intron-less ftz mRNA was diffusely distributed in the nucleus and then presumably degraded. Interestingly, export of the ftz pre-mRNA was inhibited by treatment with transcriptional inhibitors (actinomycin D, ,-amanitin or DRB). Cells treated with transcriptional inhibitor showed foci enriched with the injected mRNA, which localize side by side with SC35 speckles. Those nuclear foci, referred to as TIDRs (transcriptional-inactivation dependent RNA domain), do not overlap with paraspeckles. In addition, in situ hybridization analysis revealed that the export of endogenous poly(A)+ mRNA is also affected by transcriptional inactivation. These results suggest that nuclear mRNA export is coupled to ongoing gene transcription in mammalian cells. [source]

DNA methylation of Sleeping Beauty with transposition into the mouse genome

GENES TO CELLS, Issue 8 2005
Chang Won Park
The Sleeping Beauty transposon is a recently developed non-viral vector that can mediate insertion of transgenes into the mammalian genome. Foreign DNA elements that are introduced tend to invoke a host-defense mechanism resulting in epigenetic changes, such as DNA methylation, which may induce transcriptional inactivation of mammalian genes. To assess potential epigenetic modifications associated with Sleeping Beauty transposition, we investigated the DNA methylation pattern of transgenes inserted into the mouse genome as well as genomic regions flanking the insertion sites with bisulfite-mediated genomic sequencing. Transgenic mouse lines were created with two different Sleeping Beauty transposons carrying either the Agouti or eGFP transgene. Our results showed that DNA methylation in the keratin-14 promoter and Agouti transgene were negligible. In addition, two different genomic loci flanking the Agouti insertion site exhibited patterns of DNA methylation similar to wild-type mice. In contrast, high levels of DNA methylation were observed in the eGFP transgene and its ROSA26 promoter. These results indicate that transposition via Sleeping Beauty into the mouse genome may result in a significant level of de novo DNA methylation. This may depend on a number of different factors including the cargo DNA sequence, chromosomal context of the insertion site, and/or host genetic background. [source]

Nicotine induces the fragile histidine triad methylation in human esophageal squamous epithelial cells

INTERNATIONAL JOURNAL OF CANCER, Issue 5 2006
Toshiya Soma
Abstract The fragile histidine triad (FHIT) gene has been proposed to have an important role in very early carcinogenesis. Methylation of the FHIT gene is associated with transcriptional inactivation in esophageal squamous cell carcinoma, and FHIT inactivation has been linked to smoking-related carcinogenesis. In this study, we confirmed methylation of the FHIT gene in human esophageal squamous epithelial cells (HEECs) and examined whether nicotine induced alteration of FHIT. Methylation status in the promoter region of the FHIT gene and p16INK4A gene was determined by methylation-specific PCR in HEECs exposed to nicotine under various conditions. Methylation status of the FHIT gene was confirmed by DNA-sequencing analysis. Protein expression of Fhit and the DNA methyltransferases (DNMTs) DNMT1 and DNMT3a were assessed by immunoblot analysis. In the absence of nicotine, methylation of the FHIT gene and attenuation of Fhit protein were not detected in HEECs. Nicotine induced the methylation of FHIT gene and attenuated Fhit protein in association with increased expression of DNMT3a. Reexpression of Fhit protein in HEECs was found after cessation of moderate- to long-term exposure to nicotine. Our results show that nicotine induces methylation of the FHIT gene followed by loss of Fhit protein expression in HEECs. Continuous smoking may thus increase the risk of esophageal cancer. © 2006 Wiley-Liss, Inc. [source]

Transcriptional inactivation of amphotropic murine leukemia virus replication in human cells

JOURNAL OF MEDICAL VIROLOGY, Issue 2 2003
Martin Ploss
Abstract Amphotropic murine leukemia virus (MLV) replicates in cells from various mammalian species including humans and is a potential contaminant in MLV vector preparations for human gene transfer studies. Because MLV replication proceeds through an RNA genome that is generated under the control of viral enhancer and promoter elements, vectors were developed that delete such elements during transduction to reduce the generation of replication-competent virus. It was shown recently that replication of amphotropic MLV in certain human cells is possible without the 75 bp transcription enhancers. It is now demonstrated that enhancer-independent replication requires functional elements within U3 and is repressed by an extended deletion in the U3 region comprising enhancers, promoter and flanking sequences. It is concluded that the transcriptional inactivation of amphotropic MLV in human cells requires the combined deletion of enhancers and of additional elements in U3. J. Med. Virol. 69:267,272, 2003. © 2003 Wiley-Liss, Inc. [source]

Hypermethylation of FHIT as a prognostic marker in nonsmall cell lung carcinoma

CANCER, Issue 7 2004
Riichiroh Maruyama M.D.
Abstract BACKGROUND Methylation of CpG islands in the promoter and upstream coding regions has been identified as a mechanism for transcriptional inactivation of tumor suppressor genes. The purpose of the current study was to determine the correlation between the aberrant promoter methylation of multiple genes and survival in patients with nonsmall cell lung carcinoma (NSCLC). METHODS The methylation status of nine genes was determined in 124 surgically resected NSCLC cases using methylation-specific polymerase chain reaction. RESULTS The methylation frequencies of the genes tested in NSCLC specimens were 52% for E-cadherin (CDH1), 41% for RAS association domain family protein (RASSF1A), 38% for fragile histidine triad (FHIT) and adenomatous polyposis coli (APC), 27% for retinoic acid receptor beta (RAR,) and H-cadherin (CDH13), 20% for p16INK4A, 0.8% for O6 -methylguanine-DNA-methyltransferase (MGMT), and 0% for glutathione S-transferase P1 (GSTP1). The survival of the patients with FHIT methylation-positive tumors was found to be significantly shorter than that for those patients with methylation-negative tumors (P = 0.03), even in those patients with International Union Against Cancer TNM Stage I or Stage II disease (P = 0.007). In contrast, there were no significant survival differences noted between the methylation-positive and methylation-negative tumors for the other genes tested. In addition, based on multivariate analyses, FHIT methylation-positive status was found to be independently associated with poor survival (P = 0.046) and disease stage (P < 0.0001). CONCLUSIONS The results of the current study suggest that methylation of FHIT is a useful biomarker of biologically aggressive disease in patients with NSCLC. Cancer 2004;100:1472,7. © 2004 American Cancer Society. [source]