MRE11A and SKP2 genes are associated with the increased cytotoxicity induced by the synergistic effects of cisplatin and gemcitabine in bladder cancer cells.
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2014
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Resumo
The combination of gemcitabine and cisplatin
has been shown previously to elicit a synergistic therapeutic
effect on bladder cancer cell lines and result in
reduced cell survival. However, the precise mechanism by
which cells die has not been elucidated. Cell cycle-related
genes are the predominant targets of chemotherapeutic
protocols. Therefore, molecular biomarkers that are predictive
of therapeutic outcomes associated with tumor
sensitivity might be important for optimal treatment protocol
selection. The aim of this study was to investigate the
changes in gene expression in cell cycle-related genes that
were induced by cisplatin, gemcitabine or a combined
treatment using both agents in a low-grade urinary bladder
transitional carcinoma cell line (RT4). The following three
treatment protocols were used: 1.0 lM cisplatin, 1.56 lM
gemcitabine and a combination of 1.0 lM cisplatin and
1.56 lM gemcitabine. Cytometry and morphology analysis
(by phase-contrast photomicrography) were performed in
addition to pathway-specific gene expression analysis using
quantitative RT-PCR gene arrays. The following results
were observed after 1.0 lM cisplatin treatment: (1) a
decrease in cell number, (2) an increased percentage of
scattered cells and (3) downregulated expression of genes
related to cell cycle arrest, G1/S-to-mitotic cell cycle
transition, DNA repair, apoptosis, transcription and mitosis.
Treatment with 1.56 lM gemcitabine, or with both
drugs simultaneously, induced the following effects: (1) a
decrease in cell number, (2) an increased percentage of
scattered and elongated cells, (3) the modulation of genes
that are predominantly involved in DNA repair and (4) a
significant upregulation of genes related to cell cycle arrest.
Reduced cell density was observed after the combined
treatment compared to the two other single-agent protocols.
The downregulation of MRE11A and SKP2 was observed
only in cells subjected to the combined treatment. In conclusion,
cisplatin, gemcitabine and the combination of both
drugs elicited distinct toxicogenomic effects in the RT4
bladder transitional carcinoma cell line, although disruptions
in the expression of cell cycle control-related genes
and other pathways responsible for cell survival were
observed for all of the protocols. MRE11A and SKP2
downregulation appeared to be responsible for the synergistic
therapeutic effects elicited by cisplatin and
gemcitabine.
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Cisplatin, Gemcitabine, Gene expression profiling
Citação
SILVA, G. N da et al. MRE11A and SKP2 genes are associated with the increased cytotoxicity induced by the synergistic effects of cisplatin and gemcitabine in bladder cancer cells. Molecular Biology Reports, v. 4, p. 4613–4621, 2014. Disponível em:<https://link.springer.com/article/10.1007%2Fs11033-014-3332-1> . Acesso em: 16 jun. 2017.