Project description:Interferons have been ascribed to mediate antitumor effects. IRF-1 is a major target gene of interferons. It inhibits cell proliferation and oncogenic transformation. Here we show that 60% of all mRNAs deregulated by oncogenic transformation mediated by c-myc and H-ras are reverted to the expression levels of non-transformed cells by IRF-1. These include cell cycle regulating genes. Activation of IRF-1 decreases cyclin D1 expression and CDK4 kinase activity concomitant with dephosphorylation of pRb. These effects of IRF-1 are mediated by inhibition of the MEK-ERK pathway and a transcriptional repression of cyclin D1. IRF-1 mediated effects on cell cycle progression were found to be overridden by ectopic expression of cyclin D1. Ablation of cyclin D1 by RNA interference experiments prevents transformation and tumor growth in nude mice. The data demonstrate that cyclin D1 is a key target for IRF-1 mediated tumor suppressive effects. Experiment Overall Design: 3 samples were analysed, two replicates per sample. NIH3T3 cells were compared with myc/ras transformed NIH3T3 cells and with IRF1 expressing myc/ras transformed cells.

Project description:The cyclin D1 oncogene encodes the regulatory subunit of a holoenzyme that phosphorylates and inactivates the Rb protein and promotes progression through G1 to S phase of the cell cycle. Several prostate cancer cell lines and a subset of primary prostate cancer samples have increased cyclin D1 protein expression. However, the relationship between cyclin D1 expression and prostate tumor progression has yet to be clearly characterized. This study examined the effects of manipulating cyclin D1 expression in either human prostatic epithelial or stromal cells using a tissue recombination model. The data showed that overexpression of cyclin D1 in the initiated BPH-1 cell line increased cell proliferation rate, but did not elicit tumorigenicity in vivo. However, overexpression of cyclin D1 in Normal Prostate Fibroblasts (NPF) that were subsequently recombined with BPH-1 did induce malignant transformation of the epithelial cells. The present study also showed that recombination of BPH-1 + cyclin D1 overexpressing fibroblasts (NPF cyclin D1) resulted in permanent malignant transformation of epithelial cells (BPH-1 NPF-cyclin D1 cells) similar to that seen with Carcinoma Associated Fibroblasts (CAFs). Microarray analysis showed that the expression profiles between CAFs and NPF cyclin D1 cells were highly concordant including cyclin D1 upregulation. These data indicated that the tumor-promoting activity of cyclin D1 may be tissue-specific. Keywords: cyclin D1; stromal-epithelial interactions; prostate cancer; cDNA microarray

Project description:N6-methyladenosine (m6A) modification is the major post-transcriptional modification present in mammalian mRNA. m6A controls fundamental biological processes including cell proliferation, but the molecular mechanism remains unclear. Herein, we demonstrate that the m6A demethylase fat mass and obesity-associated (FTO) controls the cell cycle by targeting cyclin D1, the key regulator required for G1 phase progression. FTO silencing suppressed cyclin D1 expression and induced G1 arrest. FTO depletion upregulated cyclin D1 m6A modification, which in turn accelerated the degradation of cyclin D1 mRNA. Importantly, m6A modification of cyclin D1 oscillates in a cell cycle-dependent manner; m6A levels were suppressed during the G1 phase and enhanced during other phases. Low m6A levels during G1 were associated with nuclear translocation of FTO from the cytosol. Furthermore, nucleocytoplasmic shuttling of FTO is regulated by Casein Kinase II-mediated phosphorylation at Thr 150 of FTO. Our results highlight the role of m6A in regulating cyclin D1 mRNA stability, and add a new layer of complexity to cell cycle regulation.

Project description:Cyclin D1 is an important cell cycle regulator but in cancer its overexpression also increases cellular migration mediated by p27KIP1 stabilization and RhoA inhibition. Recently, a common polymorphism at the exon 4-intron 4 boundary of the human cyclin D1 gene within a splice donor region was associated with an altered risk of developing cancer. Altered RNA splicing caused by this polymorphism gives rise to a variant cyclin D1 isoform termed cyclin D1b, which has the same N-terminus as the canonical cyclin D1a isoform but a distinct C-terminus. Analysis was performed of mouse cyclin D1 knockout 3T3 cells infected with splice variants of cyclin D1. 3T3 cells transduced with retroviral vectors expressing each cyclin D1 isoform were processed for expression analysis. Keywords: Cancer associated risk factor

Project description:Purpose: To gain insights into the activity of Cyclin D1 in tumor maintenance, we developed a specific RNAi strategy to knock down its expression and analyze the outcome on gene expression profile of RAS/DNP53-driven cancer cells (transformed MEFs). Cells were treated by RNAi or with Leptomycin B over night. Method: RAS/DNP53-transformed MEFs mRNA profiles were generated by RNA-Sequencing. Results: Cyclin D1 knock down in RAS-G12V-driven cancer cells leads to expression change of genes involved in developmental processes, but no change in FAS or FASL levels.

Project description:Histone H2A T120 phosphorylation promotes oncogenic transformation via upregulation of cyclin D1

Project description:The cyclin D1 oncogene encodes the regulatory subunit of a holoenzyme that phosphorylates and inactivates the Rb protein and promotes progression through G1 to S phase of the cell cycle. Several prostate cancer cell lines and a subset of primary prostate cancer samples have increased cyclin D1 protein expression. However, the relationship between cyclin D1 expression and prostate tumor progression has yet to be clearly characterized. This study examined the effects of manipulating cyclin D1 expression in either human prostatic epithelial or stromal cells using a tissue recombination model. The data showed that overexpression of cyclin D1 in the initiated BPH-1 cell line increased cell proliferation rate, but did not elicit tumorigenicity in vivo. However, overexpression of cyclin D1 in Normal Prostate Fibroblasts (NPF) that were subsequently recombined with BPH-1 did induce malignant transformation of the epithelial cells. The present study also showed that recombination of BPH-1 + cyclin D1 overexpressing fibroblasts (NPF cyclin D1) resulted in permanent malignant transformation of epithelial cells (BPH-1 NPF-cyclin D1 cells) similar to that seen with Carcinoma Associated Fibroblasts (CAFs). Microarray analysis showed that the expression profiles between CAFs and NPF cyclin D1 cells were highly concordant including cyclin D1 upregulation. These data indicated that the tumor-promoting activity of cyclin D1 may be tissue-specific. Keywords: cyclin D1; stromal-epithelial interactions; prostate cancer; cDNA microarray NPF cyclin D1 cells were generated from NPFs, which were isolated from two different patient samples; CAFs were isolated from two different patient samples as well. RNA was isolated from NPFs, CAFs, and NPF cyclin D1 cells using total RNA isolation kit (Qiagen). Custom spotted cDNA microarrays were constructed as previously described (True, L., Coleman, I., Hawley, S., Huang, C. Y., Gifford, D., Coleman, R., Beer, T. M., Gelmann, E., Datta, M., Mostaghel, E., Knudsen, B., Lange, P., Vessella, R., Lin, D., Hood, L., and Nelson, P. S. A molecular correlate to the Gleason grading system for prostate adenocarcinoma. Proc Natl Acad Sci U S A, 103: 10991-10996, 2006) using a non-redundant set of 6,700 prostate-derived cDNA clones identified from the Prostate Expression Data Base (PEDB), a public sequence repository of expressed sequence tag data derived from human prostate cDNA libraries. Total RNA was amplified through one round of linear amplification using the MessageAmp aRNA kit (Ambion, Austin, TX). Sample quality and quantification was assessed by agarose gel electrophoresis and absorbance at A260. Cy3 and Cy5 labeled cDNA probes were made from 4 M-BM-5g of amplified RNA. Two NPF cyclin D1 and two CAF samples (labeled with Cy3) were hybridized head-to-head with an NPF control sample labeled with Cy5. Probes were hybridized competitively to microarrays under a coverslip for 16 h at 63M-BM-0C. Fluorescent array images were collected for both Cy3 and Cy5 by using a GenePix 4000B fluorescent scanner, and image intensity data were gridded and extracted using GenePix Pro 4.1 software. Differences in gene expression between NPF cyclin D1/NPF and CAF/NPF groups were determined using a two-sample t-test with Significance Analysis of Microarrays (SAM) software (http://www-stat.stanford.edu/_tibs/SAM/) with a False Discovery Rate (FDR) of M-bM-^IM-$ 10% considered significant (Tusher, PNAS, 2001). Similarities in gene expression between NPF cyclin D1/NPF and CAF/NPF groups were determined using a one-sample t-test in SAM with an FDR of M-bM-^IM-$ 0.1% considered significant. These results were reduced to unique genes by eliminating all but the highest scoring clones for each gene. A Pearson correlation coefficient was calculated in Excel to assess the strength of the linear relationship between NPF cyclin D1/NPF and CAF/NPF average log2 ratios.

Project description:Mantle cell lymphoma (MCL) is an aggressive B-cell neoplasm characterized by the t(11;14)(q13;q32) translocation leading to cyclin D1 overexpression. Cyclin D1 is a major cell cycle regulator and also has a role in transcription, but the effect of the latter in tumorigenesis remains largely unknown. Here, we investigated the transcriptional role of cyclin D1 in MCL and its impact on the pathogenesis of this neoplasm. Integrating genome-wide expression analysis of cyclin D1-silenced and overexpressing cells with cyclin D1 chromatin binding profiles, we identified a cyclin D1-activated transcriptional program in MCL cells. We used microarrays to analyze the genome-wide expression modulation in cyclin D1 overexpression models established in the cyclin D1-negative lymphoblastoid cell line JVM13.

Project description:Purpose: To gain insights into the activity of Cyclin D1 in tumor maintenance, we developed a specific RNAi strategy to knock down its expression and analyze the outcome on gene expression profile of the entire tumor. Method: MMTV-ErbB2 or RAS/DNP53-driven tumor mRNA profiles were generated by RNA-Sequencing. Results: Cyclin D1 knock down in RAS-G12V or MMTV-ErbB2-driven tumors leads to expression change of genes involved in developmental processes, but no change in FAS or FASL levels.

Project description:Mantle cell lymphoma (MCL) is an aggressive B-cell neoplasm characterized by the t(11;14)(q13;q32) translocation leading to cyclin D1 overexpression. Cyclin D1 is a major cell cycle regulator and also has a role in transcription, but the effect of the latter in tumorigenesis remains largely unknown. Here, we investigated the transcriptional role of cyclin D1 in MCL and its impact on the pathogenesis of this neoplasm. Integrating genome-wide expression analysis of cyclin D1-silenced and overexpressing cells with cyclin D1 chromatin binding profiles, we identified a cyclin D1-activated transcriptional program in MCL cells.