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G1 Cell Cycle Arrest (g1 + cell_cycle_arrest)
Selected AbstractsRosiglitazone Inhibits Cell Proliferation by Inducing G1 Cell Cycle Arrest and Apoptosis in ADPKD Cyst-Lining Epithelia CellsBASIC AND CLINICAL PHARMACOLOGY & TOXICOLOGY, Issue 6 2010Yawei Liu Many drugs inhibiting cell proliferation have been proved to be effective in slowing the disease progression in ADPKD. Recent evidence has suggested that peroxisome proliferator-activated receptor , (PPAR,) ligands have anti-neoplasm effects through inhibiting cell growth and inducing cell apoptosis in various cancer cells. In the present study, we examined the expression of PPAR, in human ADPKD kidney tissues and cyst-lining epithelial cell line, and found that the expression of PPAR, was greater in ADPKD kidney tissues and cyst-lining epithelial cell line than in normal kidney tissues and human kidney cortex (HKC) cell line. Rosiglitazone inhibited significantly proliferation of cyst-lining epithelial cells in a concentration- and time-dependent manner. These effects were diminished by GW9662, a specific PPAR, antagonist. Cell cycle analysis showed a G0/G1 arrest in human ADPKD cyst-lining epithelial cells with rosiglitazone treatment. Analysis of cell cycle regulatory proteins revealed that rosiglitazone decreased the protein levels of proliferating cell nuclear antigen, pRb, cyclin D1, cyclin D2 and Cdk4 but increased the levels of p21 and p27 in a dose-dependent manner. Rosiglitazone also induced apoptosis in cyst-lining epithelial cells, which was correlated with increased bax expression and decreased bcl-2 expression. These results suggest PPAR, agonist might serve as a promising drug for the treatment of ADPKD. [source] Resveratrol inhibits proliferation of human epidermoid carcinoma A431 cells by modulating MEK1 and AP-1 signalling pathwaysEXPERIMENTAL DERMATOLOGY, Issue 7 2006Arianna L. Kim Abstract:, Resveratrol (trans -3,4,,5-trihydroxystilbene) is a naturally occurring polyphenolic phytoalexin found in grapes, and has been shown to inhibit the growth of various types of cancer cells. We investigated the mechanism of the antiproliferative effect of resveratrol in A431-transformed keratinocytes harbouring mutant p53, and show that it is accompanied by G1 cell cycle arrest, which coincides with a marked inhibition of G1 cell cycle regulatory proteins, including cyclins A and D1 and cyclin-dependent kinase (CDK)6 and p53-independent induction of p21WAF1. Cell cycle arrest was also associated with the accumulation of hypophosphorylated Rb and p27KIP1. Resveratrol inhibited mitogen-activated protein kinase/extracellular signal-regulated kinase kinase (MEK)1 > extracellular signal-regulated protein kinase (ERK)1/2 signalling, downregulated c-Jun, and suppressed activating protein (AP)-1 DNA-binding and promoter activity. In addition, the inhibition of MEK1 > ERK1/2 signalling appears to be independent of retinoblastoma protein (pRb) hypophosphorylation in A431 cells, as PD098059 did not suppress pRb phosphorylation. Our results demonstrate that resveratrol affects multiple cellular targets in A431 cells, and that the downregulation of both AP-1 and pRb contributes to its antiproliferative activity in these cells. [source] CANu1, a novel nucleolar protein, accumulated on centromere in response to DNA damageGENES TO CELLS, Issue 8 2008Choong-Ryoul Sihn Single nucleotide polymorphism is known to be an ideal marker to detect human diseases. We isolated a novel human gene, to be called as CANu1, by the large-scale genome-wide association analysis to screen specific Single nucleotide polymorphisms in colon cancer. It is mapped to chromosome 14q11.2 and its transcript contains a 948-nt open reading frame encoding a protein of 315 aa. Here, we observed that green fluorescence protein (GFP)-fused CANu1 protein was localized to nucleoli and the C-termini of CANu1 protein were essential for its localization. Moreover, the silencing of the CANu1 gene by siRNA caused ribosomal stress leading to G1 cell cycle arrest, the induction of p53 protein, and the translocation of B23 protein. In addition, CANu1 protein was translocated from nucleolus to nuclear foci in response to UV damage. Interestingly, the mobility of a GFP-CANu1 protein in the UV damaged cells was two times faster than non-irradiated cells. Taken together, we report that a novel nucleolar protein, CANu1, is essential to maintain ribosomal structure and responsive upon UV damage. [source] PTHrP Signaling Targets Cyclin D1 and Induces Osteoblastic Cell Growth Arrest,JOURNAL OF BONE AND MINERAL RESEARCH, Issue 6 2005Nabanita S Datta PhD Abstract PTHrP control of the MC3T3-E1 cell cycle machinery showed that, during differentiation, PTHrP induced G1 growth arrest. Cyclin D1 was a critical mediator as a downstream effector of cAMP, PKC, and MAPK signaling, and the process was PKA-independent. The involvement of JunB has been found critical for PTHrP effects. Introduction: PTH-related protein (PTHrP) has been implicated in the control of bone cell turnover, but the mechanisms underlying its effect on osteoblast proliferation and differentiation have not been clearly defined. The mechanisms by which PTHrP impacts cell cycle proteins and the role of signaling pathways in differentiated osteoblasts were studied. Materials and Methods: To elucidate the role of PTHrP, flow cytometric analyses were performed using MC3T3-E1 and primary mouse calvarial cells. Relative protein abundance (Western blot), physical association of partners (immunoprecipitation), and kinase activities (in vitro kinase assays using either GST-Rb or H1-histone as substrates) of cell cycle-associated proteins in vehicle and PTHrP-treated 7-day differentiated cells were determined. ELISA and/or Northern blot analyses were done to evaluate JunB and cyclin D1 expression. SiRNA-mediated gene silencing experiments were performed to silence JunB protein. Finally, inhibitors of cAMP, protein kinase A (PKA), protein kinase C (PKC), and mitogen-activated protein kinase (MAPK) were used to determine involvement of different signaling pathways. Results: PTHrP inhibited cyclin D1 protein expression 7-fold in a dose- and time-dependent manner and increased the level of p16 protein in differentiated osteoblasts. Additionally, PTHrP reduced cyclin D1-CDK4/CDK6 and CDK1 kinase activities. Forskolin, a cAMP agonist, mimicked PTHrP action, and the PKC inhibitor, GF109203X, slightly blocked downregulation of cyclin D1, implying involvement of both cAMP and PKC. U0126, a MAPK inhibitor, alone decreased cyclin D1 protein, suggesting that the basal cyclin D1 protein is MAPK dependent. H-89, a PKA inhibitor, did not alter the effect of PTHrP on cyclin D1, suggesting a PKA-independent mechanism. Finally, expression of JunB, an activating protein-1 transcription factor, was significantly upregulated, and silencing JunB (siRNA) partially reversed the cyclin D1 response, implying involvement of JunB in the PTHrP-mediated growth arrest of MC3T3-E1 cells. Conclusion: PTHrP upregulates JunB and reduces cyclin D1 expression while inducing G1 cell cycle arrest in differentiated osteoblasts. Such regulation could be an important determinant of the life span and bone-forming activity of osteoblasts. [source] Epigenetics are involved in the regulation of the cell cycle and expression of tumor suppressor genes in human colon cancer cellsJOURNAL OF DIGESTIVE DISEASES, Issue 3 2003Ying Xuan CHEN OBJECTIVE: To investigate the effects of DNA methylation and histone acetylation on the cell cycle progression and expression of tumor suppressor genes in human colon cancer (HCC) cell lines. METHODS: Three HCC cell lines (HT-29, SW1116 and Colo-320) were treated with the DNA methylation inhibitor, 5-aza-2'-deoxycytidine (5-aza-dC) or/and histone deacetylase (HDAC) inhibitors, trichostatin A (TSA) or sodium butyrate. The methylation status of the promoter of the p16INK4A gene was assayed by methylation-specific PCR (MSP). The expression of p16INK4A and p21WAF1 was analyzed by RT-PCR. The cell cycle distribution was determined by flow cytometry. RESULTS: Before treatment, p16INK4A expression was slightly detected in the three cell lines (HT-29, SW1116 and Colo-320) and p21WAF1 expression was not detected in SW1116 and Colo-320 cells. The methylation level of the p16INK4A gene promoter significantly decreased and mRNA expression markedly increased in HT-29 cells after treatment with 1 µmol/L, but not 10 µmol/L, of 5-aza-dC for 24 h. In the SW1116 and Colo-320 cells, the expression of p16INK4A was markedly enhanced at 10 µmol/L or 5 µmol/L of 5-aza-dC for 24 h. However, p21WAF1 gene expression was not detected. Interestingly, after treatment with TSA or sodium butyrate, the transcription of p21WAF1 was significantly upregulated in these two cell lines. Furthermore, 5-aza-dC did not affect cell cycle distribution, but TSA or sodium butyrate blocked the cell cycle, mainly in the G1 phase. CONCLUSIONS: The expression of the p16INK4A gene is regulated by DNA methylation in three HCC cell lines. The expression of p21WAF1 gene is regulated by histone acetylation in SW1116 and Colo-320. In these two cell lines, histone hyperacetylation causes a G1 cell cycle arrest. [source] The G1 cell cycle arrest of macrophages infected with Aggregatibacter actinomycetemcomitansORAL DISEASES, Issue 3 2010H Kasai Oral Diseases (2010) 16, 305,309 Objectives:, Infection of murine macrophage cell line J774.1 with the periodontopathic bacterium Aggregatibacter actinomycetemcomitans induces apoptotic cell death. The infection induces cell cycle arrest in the G1 phase prior to the appearance of apoptotic cells. This study determined the involvement of various cell cycle-related signal molecules in A. actinomycetemcomitans-induced G1 cell cycle arrest. Materials and Methods:, Cell cycle in J774.1 cells infected with A. actinomycetemcomitans was analyzed with a flow cytometer. Immunoblot analysis was also employed to determine the expression levels of intracellular signal molecules. Results:, Flow cytometric analysis revealed that the percentage of cells in the G1 phase increased to 77.2% at 12 h after A. actinomycetemcomitans infection. Additionally, according to immunoblot analysis, expression levels of hyperphosphorylated forms of retinoblastoma protein (ppRb) declined in J774.1 cells following A. actinomycetemcomitans infection, whereas hypophosphorylated Rb (pRb) expression levels were elevated slightly. Expression levels of cyclin D1 and D2 in the cells decreased gradually postinfection; CDK2, CDK4, CDK6 and cyclin E levels were not changed. Furthermore, postinfection, p21CIP1/WAF1 expression increased at 6 h, followed by a subsequent decrease. Conclusion:, These findings suggest that cyclin D1 and D2 and p21CIP1/WAF1 participate in G1 cell cycle arrest in A. actinomycetemcomitans-infected J774.1 cells. [source] , -secretase inhibitors exerts antitumor activity via down-regulation of Notch and Nuclear factor kappa B in human tongue carcinoma cellsORAL DISEASES, Issue 6 2007J Yao Objective:, To investigate the effect of the , -secretase inhibitors (GSIs) on the growth of human tongue carcinoma cells and to provide the molecular mechanism for potential application of GSIs in the treatment of tongue carcinoma. Materials and methods:, Human tongue carcinoma Tca8113 cells were cultured with the GSI L-685 458. Cell growth was determined by the methylthiazole tetrazolium method. Cell cycle and apoptosis were analyzed by flow cytometry and/or confocal microscopy. RT-PCR and Western blot were employed to determine the intracellular expression levels. Nuclear factor kappa B (NF- ,B) activation was examined by electrophoretic mobility shift assay. Results:, L-685,458 dose-dependently inhibited the growth of human tongue carcinoma Tca8113 cells by inducing G0,G1 cell cycle arrest and apoptosis. The mRNA and protein levels of Hairy/Enhancer of Split-1, a target of Notch activation, were decreased dose-dependently by L-685,458. Furthermore, L-685,458 down-regulated cyclin D1, B-cell lymphocytic-leukemia proto-oncogene 2 and c-Myc expressions, which are regulated by the transcription factor NF- ,B. Coincident with this observation, L-685,458 induced a dose-dependent reduction of constitutive NF- ,B activation in Tca8113 cells. Conclusions:, The GSI L-685,458 may have a therapeutic value for the treatment of human tongue carcinoma. Moreover, the effects of L-685,458 in tumor inhibition may act partially via the modulation of Notch and NF- ,B. [source] The effects of exogenous p53 overexpression on HPV-immortalized and carcinogen transformed oral keratinocytesCANCER, Issue 1 2002George H. Yoo M.D. Abstract BACKGROUND Overexpression of p53 in head and neck carcinoma cells has demonstrated tumor growth suppression using in vitro and in vivo models. The effects of exogenous overexpression of wild-type p53 on human papilloma virus (HPV),immortalized and carcinogen transformed oral keratinocytes were determined. METHODS The p53 gene was overexpressed in IHGK (immortalized human gingival keratinocyte), IHGKN [4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone, (NNK)]-carcinogen transformed keratinocytes, and two head and neck squamous carcinoma (HNSCC) cell lines, HN30 and HN12. The transfection efficiency, growth suppression, and inhibition of the cell cycle along with the induction of apoptosis were measured. RESULTS Transfections with adenoviruses were more efficient for IHGK cells than for IHGKN, HN12, and HN30 cells. Inhibition of proliferation in all cell lines was proportional to the viral particle to cell (VPC) ratios. IHGK cells were more sensitive to p53 than IHGKN cells. HN12 cells were more suppressed than HN30 cells. HN12 were the most suppressed at 72 hours whereas HN30 cells were most suppressed at 24 hours. Expression of exogenous p53-induced G1 cell cycle arrest and p21 expression as VPC ratios increased in IHGK and IHGKN cell lines. Apoptosis also was induced in these cells by p53 as VPC increased. IHGK cells were more sensitive to p53-induced growth inhibition, cell cycle regulation, p21 expression and apoptosis than IHGKN cells. HN12 (mutated p53) cells were more sensitive to p53 overexpression than HN30 (wild-type p53) cells. Gene transfer and expression of exogenous p53 by using Ad-p53 demonstrates suppressive effects on HPV immortalized and carcinogen transformed oral keratinocytes. CONCLUSIONS Cell cycle regulation by gene transfer is feasible in immortalized oral keratinocytes. Carcinogen transformed cells are less susceptible to the effects of p53 overexpression. Expression of exogenous p53 through p53 gene transfer can suppress HPV immortalization and carcinogen transformation in oral keratinocytes. The sensitivity of HNSCC cell lines to p53-induced cell cycle regulation and apoptosis is variable and dependent on the cell line and duration of exposure. In vitro results using p53 gene transfer must be validated in clinical studies with patients at risk for HNSCC. Cancer 2002;94:159,66. © 2002 American Cancer Society. [source] Inhibition of NF-,B activation by the histone deacetylase inhibitor 4-Me2N-BAVAH induces an early G1 cell cycle arrest in primary hepatocytesCELL PROLIFERATION, Issue 6 2007P. Papeleu The authors would like to draw the readers' attention to the fact that in the above article, an incorrect version of Table 1 was published. The correct version of Table 1 is printed below: [source] Inhibition of NF-,B activation by the histone deacetylase inhibitor 4-Me2N-BAVAH induces an early G1 cell cycle arrest in primary hepatocytesCELL PROLIFERATION, Issue 5 2007P. Papeleu 4-Me2N-BAVAH has been shown to induce histone hyperacetylation and to inhibit proliferation in Friend erythroleukaemia cells in vitro. However, the molecular mechanisms have remained unidentified. Materials and Methods:,In this study, we evaluated the effects of 4-Me2N-BAVAH on proliferation in non-malignant cells, namely epidermal growth factor-stimulated primary rat hepatocytes. Results and Conclusion:,We have found that 4-Me2N-BAVAH inhibits HDAC activity at non-cytotoxic concentrations and prevents cells from responding to the mitogenic stimuli of epidermal growth factor. This results in an early G1 cell cycle arrest that is independent of p21 activity, but instead can be attributed to inhibition of cyclin D1 transcription through a mechanism involving inhibition of nuclear factor-kappaB activation. In addition, 4-Me2N-BAVAH delays the onset of spontaneous apoptosis in primary rat hepatocyte cultures as evidenced by down-regulation of the pro-apoptotic proteins Bid and Bax, and inhibition of caspase-3 activation. [source] | |||||||||||||