Tumor suppressor genes associated with drug resistance in ovarian cancer (Review)

Yin, Fuqiang; Liu, Xia; Li, Danrong; Wang, Qi; Zhang, Wei; Li, Li

doi:10.3892/or.2013.2446

Cited by 47 publications

(50 citation statements)

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“…Many of the genes with increased expression, including granzyme B (GZMB), 29 a calcium binding protein (S100A6), 30 a gap junction protein (GJA1), 31 and a cyclin-dependent kinase inhibitor (CDKN2A), 32 have been reported to have a role in cell death and/or apoptosis. Several genes showing decreased expression, including the inhibitory receptor of peripheral mononuclear cells (LAIR1), 33 a conserved cysteine-rich protein (PLAC8), 34 an apoptosis-associated speck-like protein (PYCARD), 35 and a receptor tyrosine kinase (ERBB3), 36 have also been reported to have a role in cell death. CARD11, a caspase recruitment domain-containing protein, has decreased expression and been reported to interact with the proapoptotic BCL10 protein.…”

Section: Resultsmentioning

confidence: 99%

T-cell development of resistance to apoptosis is driven by a metabolic shift in carbon source and altered activation of death pathways

et al. 2015

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We developed a model system to investigate apoptotic resistance in T cells using osmotic stress (OS) to drive selection of deathresistant cells. Exposure of S49 (Neo) T cells to multiple rounds of OS followed by recovery of surviving cells resulted in the selection of a population of T cells (S49 ) that failed to die in response to a variety of intrinsic apoptotic stimuli including acute OS, but remained sensitive to extrinsic apoptotic initiators. Genome-wide microarray analysis comparing the S49 (OS 4-25) with the parent S49 (Neo) cells revealed over 8500 differentially regulated genes, with almost 90% of those identified being repressed. Surprisingly, our data revealed that apoptotic resistance is not associated with expected changes in pro-or antiapoptotic Bcl-2 family member genes. Rather, these cells lack several characteristics associated with the initial signaling or activation of the intrinsic apoptosis pathway, including failure to increase mitochondrial-derived reactive oxygen species, failure to increase intracellular calcium, failure to deplete glutathione, failure to release cytochrome c from the mitochondria, along with a lack of induced caspase activity. The S49 (OS 4-25) cells exhibit metabolic characteristics indicative of the Warburg effect, and, despite numerous changes in mitochondria gene expression, the mitochondria have a normal metabolic capacity. Interestingly, the S49 (OS 4-25) cells have developed a complete dependence on glucose for survival, and glucose withdrawal results in cell death with many of the essential characteristics of apoptosis. Furthermore, we show that other dietary sugars such as galactose support the viability of the S49 (OS 4-25) cells in the absence of glucose; however, this carbon source sensitizes these cells to die. Our findings suggest that carbon substrate reprogramming for energy production in the S49 (OS 4-25) cells results in stimulusspecific recognition defects in the activation of intrinsic apoptotic pathways.

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Section: Resultsmentioning

confidence: 99%

T-cell development of resistance to apoptosis is driven by a metabolic shift in carbon source and altered activation of death pathways

et al. 2015

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“…For example, on the basis of comprehensive bioinformatic analysis, Yin et al (77) reported that SPARCL1 and CCL21 are associated with drug resistance in ovarian cancer. Similarly, 15 TSGs associated with drug resistance in ovarian cancer were analyzed by comprehensive bioinformatics to overview the relationship of the 15 TSGs with drug resistance and to discover potential TSGs related with drug resistance (49).…”

Section: Discussionmentioning

confidence: 99%

“…The expression of DAPK1 and DAPK2 is altered in multi-drug-resistant gastric cancer cell lines and thus these genes may be an integral part of the mechanisms responsible for chemoresistance (48). In ovarian cancer, DAPK1 has direct interactions with FBXO32, PDCD4, PTEN, TP53 and TP73, and has indirect interactions with BRCA1, BRCA2, CDKN1A, IL24, MLH1 and SULF1, which are all involved in drug resistance in ovarian cancer, suggesting its potential role in drug resistance in ovarian cancer (49). As for CDK2, a previous study revealed that cisplatin consistently induces transient S-phase arrest by inhibiting the CDK2/cyclin A complex in the S-phase at 12 h after treatment with cisplatin or DAP in combination with the mitotic inhibitor nocodazole and also potently inhibits G1-phase CDK2/cyclin E activities at 18 h (50), indicating that CDK2 can directly respond to cisplatin in ovarian cancer cells.…”

Section: Functional Prediction and Analysis Based On Protein/ Gene-prmentioning

confidence: 99%

“…Given that the overexpression of miR-486-5p is closely correlated with the downregulated expression of ARHGAP5 in lung tumor tissues, which considerably inhibits lung cancer cell migration and invasion, miR-486-5p may act as a tumor suppressor contributing to the progression and metastasis of non-small cell lung cancer (76). Actually, the biological processes including cell proliferation, invasion, growth and metastasis in which miR-216b and miR-486-5p are involved are closely related to the development of drug resistance in cancers (49,77), and the annotation of biological processes also suggests that cell proliferation and growth are associated with drug resistance. All these results indicate that miR-216b and miR-486-5p may be associated with drug resistance in an indirectly way.…”

Section: Microrna-mrna Prediction Tool ------------------------------mentioning

confidence: 99%

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Upregulation of NEK2 is associated with drug resistance in ovarian cancer

et al. 2013

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Abstract. NEK2 [NIMA (never in mitosis gene A)-related expressed kinase 2] is associated with various biological behaviors in the development of cancer, while research concerning its association with drug resistance is limited. The association of NEK2 with drug resistance in ovarian cancer has not yet been reported. In the present study, on the basis of microarray results from Oncomine and the GEO Profiles online database, we revealed that NEK2 mRNA expression in ovarian cancer tissues is upregulated. In addition, its expression in drugresistant ovarian cancer cells was upregulated when compared with expression with their sensitive or parental counterparts. Finally, we performed a comprehensive bioinformatic analysis consisting of protein/gene-protein/gene interaction network, annotation of biological processes and microRNA-mRNA interaction analysis. We observed that NEK2 directly or indirectly interacts with a number of genes, proteins, microRNAs and biological processes associated with drug resistance in ovarian and other types of cancer. These results indicate that NEK2 contributes to drug resistance in ovarian cancer and it may be an important therapeutic target.

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“…In addition, apoptosis, which is associated with the expression of specific 'death' genes and downregulation of 'survival' counterparts, is crucial in determining the response to chemotherapeutic agents (8,9). However, regardless of the mechanisms, abnormal expression of drug resistance-related genes often plays important roles in drug resistance (10).…”

Section: Introductionmentioning

confidence: 99%

Downregulation of HNF1 homeobox B is associated with drug resistance in ovarian cancer

Zhang²,

Gao

et al. 2014

Oncology Reports

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Abstract. The expression of HNF1 homeobox B (HNF1B) is associated with cancer risk in several tumors, including ovarian cancer, and its decreased expression play roles in cancer development. However, the study of HNF1B and cancer is limited, and its association with drug resistance in cancer has never been reported. On the basis of array data retrieved from Oncomine and Gene Expression Omnibus (GEO) online database, we found that the mRNA expression of HNF1B in 586 ovarian serous cystadenocarcinomas and in platinum-resistant A2780 epithelial ovarian cancer cells was significantly decreased, indicating a potential role of HNF1B in drug resistance in ovarian cancer. Based on this finding, comprehensive bioinformatics analyses, including protein/ gene interaction, protein-small molecule/chemical interaction, biological process annotation, gene co-occurrence and pathway enrichment analysis and microRNA-mRNA interaction, were performed to illustrate the association of HNF1B with drug resistance in ovarian cancer. We found that among the proteins/ genes, small molecules/chemicals and microRNAs which directly interacted with HNF1B, the majority was associated with drug resistance in cancer, particularly in ovarian cancer. Biological process annotation revealed that HNF1B closely related to 24 biological processes which were all notably associated with ovarian cancer and drug resistance. These results indicated that the downregulation of HNF1B may contribute to drug resistance in ovarian cancer, via its direct interactions with these drug resistance-related proteins/genes, small molecules/chemicals and microRNAs, and via its regulations on the drug resistance-related biological processes. Pathway enrichment analysis of 36 genes which co-occurred with HNF1B, ovarian cancer and drug resistance indicated that the HNF1B may perform its drug resistance-related functions through 4 pathways including ErbB signaling, focal adhesion, apoptosis and p53 signaling. Collectively, in this study, we illustrated for the first time that HNF1B may contribute to drug resistance in ovarian cancer, potentially through the 4 pathways. The present study may pave the way for further investigation of the drug resistance-related functions of HNF1B in ovarian cancer.

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Tumor suppressor genes associated with drug resistance in ovarian cancer (Review)

Cited by 47 publications

References 50 publications

T-cell development of resistance to apoptosis is driven by a metabolic shift in carbon source and altered activation of death pathways

T-cell development of resistance to apoptosis is driven by a metabolic shift in carbon source and altered activation of death pathways

Upregulation of NEK2 is associated with drug resistance in ovarian cancer

Downregulation of HNF1 homeobox B is associated with drug resistance in ovarian cancer

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