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Mitotic Checkpoint (mitotic + checkpoint)

Distribution by Scientific Domains

Medical Sciences	50%
Life Sciences	50%

Selected Abstracts

A minor ,-tubulin essential for mammalian cell proliferation

CYTOSKELETON, Issue 9 2008
Rajat Bhattacharya
Abstract Mammals use tubulin from multiple genes to construct microtubules. Some genes are expressed in a tissue specific manner, while others are expressed in almost all cell types. ,5-Tubulin is a minor, ubiquitous isoform whose overexpression was recently shown to disrupt microtubules. Using inhibitory RNA, we now report that suppression of ,5 production in both human and hamster cells blocks cell proliferation. Cells depleted of ,5 either trigger the mitotic checkpoint and undergo apoptosis; or they experience a transient mitotic block, a high incidence of lagging chromosomes, and progression into G1 without cytokinesis to become large, flat cells with elevated DNA content. Microtubules appear to be normally organized in cells depleted of ,5, but they are rich in acetylated ,-tubulin indicating that they may be more stable than normal. The results provide the first evidence that a specific isoform of ,-tubulin is required for mitosis. Cell Motil. Cytoskeleton 2008. © 2008 Wiley-Liss, Inc. [source]

Effects of histone deacetylase inhibitors on p55CDC/Cdc20 expression in HT29 cell line

JOURNAL OF CELLULAR BIOCHEMISTRY, Issue 4 2006
Giuseppe Iacomino
Abstract In a previous work, taking advantage of the gene-array screening technology, we analysed the effects of histone deacetylase (HDAC) inhibitor sodium butyrate (NaBt), on gene transcription in HT29 human adenocarcinoma cell line. In this study, we focused our attention on p55CDC/Cdc20 gene, whose expression was dramatically reduced by NaBt treatment. Mammalian p55CDC/Cdc20 interacts with the anaphase promoting complex/cyclosome (APC/C), and is involved in regulating anaphase onset and late mitotic events. Using NaBt and trichostatin A (TSA), a member of the HDAC inhibitor family, we showed that both HDAC inhibitors totally downregulated p55CDC/Cdc20 transcription and expression. Cell cycle analysis demonstrated that NaBt arrested HT29 cells in G0/G1 phase, while TSA caused a double block in G0/G1 and G2/M phases. Moreover, p55CDC/Cdc20 showed maximal expression in S and G2/M phases of HT29 cell division cycle. Based on this evidence, and by means of specific cell cycle modulators, such as nocodazole and hydroxyurea, we demonstrated that both TSA and NaBt were responsible for loss of p55CDC/Cdc20 expression, but with different mechanisms of action. Taken together, these results suggest that targeting molecules involved in spindle mitotic checkpoint, such as p55CDC/Cdc20, might account for the high cytotoxicity of HDAC inhibitors versus malignant cells. J. Cell. Biochem. 99: 1122,1131, 2006. © 2006 Wiley-Liss, Inc. [source]

Combined BubR1 protein down-regulation and RASSF1A hypermethylation in Wilms tumors with diverse cytogenetic changes

MOLECULAR CARCINOGENESIS, Issue 9 2008
Masayuki Haruta
Abstract BUB1B and RASSF1A genes play specific roles in the mitotic checkpoint, and their defects may cause chromosome instability or aneuploidy in mouse fibroblasts and human cancer cell lines; however, few studies have reported a correlation between defects in these genes and chromosome changes in human tumor samples. We examined chromosome abnormalities in 25 Wilms tumors by metaphase comparative genomic hybridization, and classified them into 14 hyperdiploid (50,,,chromosomes), 2 near-or-pseudodiploid, and 9 diploid tumors. We also examined various molecular aspects of BUB1B and RASSF1A, and evaluated the relationship between chromosome changes and the status of both genes. No tumors showed BUB1B mutation. BubR1 protein (BUB1B gene product) expression was undetectable or decreased in five of six hyperdiploid or near-or-pseudodiploid tumors and increased in four of five diploid tumors, whereas all seven tumors examined showed BUB1B mRNA expression irrespective of their chromosome pattern. Furthermore, while complete promoter methylation of RASSF1A was found in 13 of 16 hyperdiploid or near-or-pseudodiploid tumors, unmethylated RASSF1A was found in 5 of 9 diploid tumors. Partial RASSF1A methylation was found in three hyperdiploid or near-or-pseudodiploid tumors and in four diploid tumors. Thus, BubR1 protein expression decreased, and the promoter region of RASSF1A was completely methylated in the great majority of hyperdiploid or near-or-pseudodiploid tumors, BubR1 protein expression increased and RASSF1A was unmethylated in the majority of diploid tumors. These findings suggest that the combined BubR1 protein down-regulation and RASSF1A hypermethylation might be implicated in the formation of chromosomal changes found in Wilms tumors. © 2008 Wiley-Liss, Inc. [source]

Antibody-based proteomics for esophageal cancer: Identification of proteins in the nuclear factor-,B pathway and mitotic checkpoint

CANCER SCIENCE, Issue 9 2009
Norihisa Uemura
To identify the molecular background of esophageal cancer, we conducted a proteomics study using an antibody microarray consisting of 725 antibodies and surgical specimens from three cases. The microarray analysis identified 24 proteins with aberrant expression in esophageal cancer compared with the corresponding normal mucosa. The overexpression of 14 of the 24 proteins was validated by western blotting analysis of the same samples. These 14 proteins were examined by immunohistochemistry, in which nine proteins showed consistent results with those obtained by western blotting. Among the nine proteins, seven were localized in tumor cells, and two in infiltrating cells. The former included proteins associated with mitotic checkpoint control and the nuclear factor (NF)-,B pathway. Although mitotic checkpoint gene products (budding uninhibited by benzidazoles 1 homolog beta (BubR1) and mitotic arrest deficient-like 1 (Mad2)) have previously been reported to be involved in esophageal cancer, the association of NF-,B-activating kinase, caspase 10, and activator protein-1 with esophageal cancer has not been previously reported. These proteins play a key role in the NF-,B pathway, and NF-,B is a signal transduction factor that has emerged as an important modulator of altered gene programs and malignant phenotype in the development of cancer. The association of these proteins with esophageal cancer may indicate that mitotic checkpoint gene products and NF-,B play an important part in the carcinogenesis of esophageal cancer. (Cancer Sci 2009; 100: 1612,1622) [source]

Protection of DNA during early development: adaptations and evolutionary consequences

EVOLUTION AND DEVELOPMENT, Issue 1 2003
David Epel
SUMMARY The rapidly dividing cleavage stages of embryos do not have the typical responses to cell damage, such as induction of the heat shock response, use of mitotic checkpoints, or use of apoptosis to eliminate severely damaged cells. This could create problems with integrity of DNA, but the solution in these embryos appears to be a "be prepared" approach, in which specific adaptations are used to minimize DNA damage during cleavage and the use of apoptosis at the mid-blastula transition to remove any cells that were nevertheless damaged. It has been assumed that this approach has evolved because of the advantage of rapid production of a motile larvae. Alternatively, this particular approach may have the selective advantage of increasing mutation rate when there are greater environmental stresses. This could provide more variants on which selective pressures could act and thus accelerate evolution during environmentally stressful periods. [source]

Decreased expression of germinal center,associated nuclear protein is involved in chromosomal instability in malignant gliomas

CANCER SCIENCE, Issue 11 2009
Kazutaka Ohta
Malignant glioma (MG) is highly proliferative and invasive, with the malignant characteristics associated with aneuploidy and chromosomal instability (CIN). Here, we found that the level of germinal center,associated nuclear protein (GANP), a mammalian homologue of yeast Sac3, was markedly decreased in MGs with a poor prognosis; and thus we explored the effect of its decrease on cell-cycle progression of MG cell lines. Glioblastomas showed a significantly lower level of ganp mRNA than anaplastic astrocytomas, as measured by real-time reverse transcription-PCR, in 101 cases of adult MG. MGs of ganpLow expression displayed more malignant characteristics, with loss of heterozygosity on chromosome 10, epidermal growth factor receptor gene amplification, and significantly poorer prognosis than the ganpHigh group. Human diploid fibroblasts depleted of ganp mRNA by the RNA interference (RNAi) method showed a decreased percentage of S-phase cells and a cellular-senescence phenotype. MG cell lines harboring abnormalities of various cell-cycle checkpoint molecules displayed slippage of mitotic checkpoints and an increased proportion of hyperploid cells after ganp RNAi-treatment. These results suggest that GANP protects cells from cellular senescence caused by DNA damage and that a significant decrease in GANP expression leads to malignancy by generating hyperploidy and CIN. (Cancer Sci 2009); 00: 000,000) [source]