Sylvia Mansilla scite author profile

Exposure of MDA-MB-231 and MCF-7/VP human breast carcinoma cells to the anthracyclines doxorubicin and WP631 induced polyploidy, formation of multinucleated cells and cell death by mitotic catastrophe through caspase-dependent and caspase-independent mechanisms. In both cell lines, the antiproliferative effect of WP631 was higher than that of doxorubicin and a transient halt in G(2)/M was observed without cell senescence, while p53-dependent apoptosis did not occur in these cells. Mitotic catastrophe was linked to necrosis, but also to apoptosis-like death, estimated by differential cell staining with annexin-V-fluorescein and propidium iodide. Drug-induced changes in the expression of c-myc and p21(WAF1), and in their respective protein levels, were observed. They depended on the cell line, the anthracycline used and its concentration, and they were consistent with the cell cycle progression through G(2) to mitosis. Significant activation of caspase-2 and caspase-3 was only observed in MDA-MB-231 cells treated with doxorubicin but not with WP631, indicating that caspases may be not mandatory for the occurrence of cell death through mitotic catastrophe. In MCF-7/VP cells, which do not express functional caspase-3, mitotic catastrophe was also induced.

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Mechanisms of Drug-Induced Mitotic Catastrophe in Cancer Cells

Portugal¹,

Mansilla²,

Bataller

2010

CPD

120

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Mitotic Catastrophe as a Consequence of Chemotherapy

Mansilla

Bataller²,

Portugal³

2006

ACAMC

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According to a widespread model, anti-cancer chemotherapy involves the triggering of tumor cells to undergo apoptosis, so apoptosis-resistant cells would be recalcitrant to such therapy. However, in addition to apoptosis, which is mainly dependent on the activity of the tumor suppressor protein p53, cells can be eliminated following DNA damage by other mechanisms. Mitotic catastrophe, a form of cell death that results from abnormal mitosis, is one such mechanism. While the term mitotic catastrophe has been used to describe a type of cell death that occurs during mitosis, there is still no broadly accepted definition. Occasionally, mitotic catastrophe is used restrictively for abnormal mitosis leading to cell death, which can occur through necrosis or apoptosis, rather than cell death itself. Although different classes of cytotoxic agents induce mitotic catastrophe, the pathways of abnormal mitosis differ depending on the nature of the inducer and the status of cell-cycle checkpoints. Moreover, mitotic catastrophe can also develop because of aberrant re-entry of tumor cells into the cell cycle after prolonged growth arrest. Elucidation of the factors that regulate different aspects of treatment- induced mitotic catastrophe should assist in improving the efficacy of anti-cancer therapy, providing opportunities for the development of new drugs.

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Daunorubicin-induced variations in gene transcription: commitment to proliferation arrest, senescence and apoptosis

Mansilla¹,

Piña²,

Portugal³

2003

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We used a human cDNA macroarray containing various oncogenes and tumour suppressor genes to assess gene expression profiles in early-passage Jurkat T lymphocytes treated with clinically relevant concentrations of the antitumour antibiotic daunorubicin. Several oncogenes and tumour suppressor genes were either up- or down-regulated depending on the daunorubicin concentration used. The expression levels of some of these genes were confirmed by semi-quantitative reverse transcriptase-PCR. We also compared the changes in cell-cycle distribution and the apoptotic morphological characteristics of the cells treated with daunorubicin, using flow cytometry and fluorescence microscopy. Exposure to 182 nM daunorubicin (its IC(75) in Jurkat T cells: where IC(75) is the drug concentration that inhibits growth by 75%) resulted in cell-cycle arrest in G(1) and almost immediate apoptosis. In contrast, decreasing the drug concentration to 91 nM (close to the IC(50)) caused G(2) arrest and cell senescence-like growth arrest, whereas features of apoptosis and necrosis appeared only after longer incubation times. Gene expression profiles, cell-cycle distribution, the presence of DNA damage and the time-dependent response of Jurkat T cells to cell death were correlated clearly. The general behaviour of the genes suggests that cell-cycle arrest and cell death follow distinct pathways depending on drug concentration.

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Sylvia Mansilla

Sp1 transcription factor: A long-standing target in cancer chemotherapy

Mitotic Catastrophe Results in Cell Death by Caspase-Dependentand Caspase-Independent Mechanisms

Mechanisms of Drug-Induced Mitotic Catastrophe in Cancer Cells

Mitotic Catastrophe as a Consequence of Chemotherapy

Daunorubicin-induced variations in gene transcription: commitment to proliferation arrest, senescence and apoptosis

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