Tumorigenesis is a multi-step process involving a series of changes of cellular genes. Most solid tumors and hematopoietic malignancies often show abnormal chromosome numbers, the aneuploidy. The chromosomal aneuploidy keeps cells in the state of chromosomal instability (CIN) that will increase the mutation rate of cells affected and thus push them deeper into the process of tumorigenesis. The yeast genetic studies showed that normal distribution of chromosome during mitosis is under the surveillance of a set of genes, the spindle assembly checkpoint genes, that include the BUB and MAD gene groups and MPS. In some colorectal cancers with CIN it was found to have hBUB1 gene mutated and the mutated gene functions dominantly. We have examined a series of breast cancer cell lines with or without CIN for the hBUB1 gene mutation and found none. However, we detected various degrees of deletion in the coding sequences of the hBUB1 gene in cells from T lymphoblastic leukemia cell lines, Molt3 and Molt4, and cells from some acute lymphoblastic leukemia and Hodgkin's lymphoma patients. So far the lesions of deletion are in the kinetochore localization domain of the hBUB1 gene that may explain why the deletion lesions in the BUB1 gene cause aneuploidy in lymphoma and lymphoma cells. The deletions are heterozygous in nature. Like the mutated hBUB1 gene in colorectal cancer, the mutant hBUB1 cDNA from lymphoblastic leukemia cells behaves dominantly.
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Defects in centromeric/pericentromeric histone H2A T120 phosphorylation by hBUB1 cause chromosome missegregation producing multinucleated cells.
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October 2018
Department of Biochemistry, Nagasaki University School of Medicine, Nagasaki, Japan.
Histone H2A phosphorylation plays a role both in chromatin condensation during mitosis and in transcriptional activation during the G1/S transition. Bub1 and NHK1/VRK1 have been identified as histone H2A kinases. However, little is known about the importance of histone H2A phosphorylation in chromosome segregation.
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Department of Medicine, Genetics Program and Cancer Research Center, Boston University School of Medicine, Boston, MA, USA.
Our previous studies showed that the depletion of the outer kinetochore protein hBub1 upon activation of spindle assembly checkpoint (SAC) primarily triggers early cell death mediated by p53 rather than aneuploidy. Here, we report that phosphorylation of p53 at Ser37 is critical for proapoptotic activity upon SAC activation. Furthermore, we show that p53 physically interacts with hBub1 at kinetochores in response to mitotic spindle damage suggesting a direct role for hBub1 in the suppression of p53 mediated cell death.
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April 2009
Department of Medicine, Genetics Program and Cancer Research Center, Boston University School of Medicine, Boston, MA, USA.
It has been universally believed that spindle assembly checkpoint (SAC) proteins which include the kinetochore proteins are involved in monitoring the faithful segregation of sister chromatids during cell division and hence defects in these proteins result in aneuploidy. Furthermore, there are multiple sources of experimental data to suggest that a defect in p53 can also promote genomic instability leading to aneuploidy. Despite these observations, a molecular basis for the prevention of aneuploidy to maintain genomic integrity upon activation of SAC has largely remained elusive.
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Anticancer Res
April 2008
Department of General Surgery, Yokohama City University, 3-9 Fukuura, Kanazawa-ku, Yokohama City, Kanagawa, Japan.
Background: The mitotic spindle assembly checkpoint (MSAC) genes are responsible for preventing chromosome missegregation. MSAC gene expressions have been reported to be associated with tumor cell proliferation or unfavorable cancer behavior. The present study was conducted to preliminary investigate the MSAC gene expressions in thyroid neoplasms.
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Cell Cycle
May 2005
Laboratory of Cell Biochemistry and Biology, National Institute of Diabetes, Digestive and Kidney Diseases, Bethesda, Maryland 20892, USA.
The kinetochore, a multi-protein complex assembled on centromeric chromatin in mitosis, is essential for sister chromosome segregation. We show here that inhibition of histone deacetylation blocks mitotic progression at prometaphase in two human tumor cell lines by interfering with kinetochore assembly. Decreased amounts of hBUB1, CENP-F and the motor protein CENP-E were present on kinetochores of treated cells.
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