EC:1.6.99.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Indicators of mitochondrial function were studied in two different cell culture models of cis-diamminedichloroplatinum-II (CDDP) resistance: the intrinsically resistant human ovarian cancer cell line CI-80-13S, and resistant clones (HeLa-S1a and HeLa-S1b) generated by stable expression of the serine protease inhibitor-plasminogen activator inhibitor type-2 (PAI-2), in the human cervical cancer cell line HeLa. In both models, CDDP resistance was associated with sensitivity to killing by adriamycin, etoposide, auranofin, bis[1,2-bis(diphenylphosphino)ethane]gold(I) chloride ([Au(DPPE)2]Cl), CdCl2 and the mitochondrial inhibitors rhodamine-123 (Rh123), dequalinium chloride (DeCH), tetraphenylphosphonium (TPP), and ethidium bromide (EtBr) and with lower constitutive levels of ATP. Unlike the HeLa clones, CI-80-13S cells were additionally sensitive to chloramphenicol, 1-methyl-4-phenylpyridinium ion (MPP+), rotenone, thenoyltrifluoroacetone (TTFA), and antimycin A, and showed poor reduction of 1-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide (MTT), suggesting a deficiency in NADH dehydrogenase and/or succinate dehydrogenase activities. Total platinum uptake and DNA-bound platinum were slightly lower in CI-80-13S than in sensitive cells. The HeLa-S1a and HeLa-S1b clones, on the other hand, showed poor reduction of triphenyltetrazolium chloride (TTC), indicative of low cytochrome c oxidase activity. Total platinum uptake by HeLa-Sla was similar to HeLa, but DNA-bound platinum was much lower than for the parent cell line. The mitochondria of CI-80-13S and HeLa-S1a showed altered morphology and were fewer in number than those of JAM and HeLa. In both models, CDDP resistance was associated with less platinum accumulation and with mitochondrial and membrane defects, brought about one case with expression of a protease inhibitor which is implicated in tumor progression. Such markers may identify tumors suitable for treatment with gold phosphine complexes or other mitochondrial inhibitors.
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PMID:Serine protease inhibition and mitochondrial dysfunction associated with cisplatin resistance in human tumor cell lines: targets for therapy. 926 20

The classic association between cancer and mitochondrial dysfunction is actually considered as a role of mitochondria in cellular signalling. It is understood that mitochondria, mitochondrial oxidative damage and NO and H2O2 diffusion are involved in the progression of human colorectal cancer. Mitochondria from human colorectal tumors and adjacent non-tumor colon tissues showed a markedly increased oxidative damage with increased contents of TBARS and protein carbonyls. Mitochondrial protein carbonyls was the most sensitive indicator. Oxidative stress and damage was also observed in adjacent non-tumor cells. Mitochondrial activities, as NADH-cytochrome c reductase and cytochrome oxidase, were observed decreased in tumor and in adjacent non-tumor tissue. Cu,Zn-SOD activity decreased by 42% in tumor tissue in the advanced stage as compared with the initial stage, whereas Mn-SOD activity did not change in tumor progression. An increased mtNOS activity (46%) was observed in tumor and non-tumor tissues in the advanced stage of cancer progression. A direct linear relationship between mtNOS and oxidative damage in tumor and non-tumor tissues supports the concept that mitochondrial NO and H2O2 diffuse from tumor to adjacent non tumor tissue signaling for cell death as the classic toxohormones.
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PMID:Mitochondrial dysfunction in human colorectal cancer progression. 1712 72

Recent epidemiological and laboratory-based studies suggest that the anti-diabetic drug metformin prevents cancer progression. How metformin diminishes tumor growth is not fully understood. In this study, we report that in human cancer cells, metformin inhibits mitochondrial complex I (NADH dehydrogenase) activity and cellular respiration. Metformin inhibited cellular proliferation in the presence of glucose, but induced cell death upon glucose deprivation, indicating that cancer cells rely exclusively on glycolysis for survival in the presence of metformin. Metformin also reduced hypoxic activation of hypoxia-inducible factor 1 (HIF-1). All of these effects of metformin were reversed when the metformin-resistant Saccharomyces cerevisiae NADH dehydrogenase NDI1 was overexpressed. In vivo, the administration of metformin to mice inhibited the growth of control human cancer cells but not those expressing NDI1. Thus, we have demonstrated that metformin's inhibitory effects on cancer progression are cancer cell autonomous and depend on its ability to inhibit mitochondrial complex I.DOI: http://dx.doi.org/10.7554/eLife.02242.001.
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PMID:Metformin inhibits mitochondrial complex I of cancer cells to reduce tumorigenesis. 2484 20

Ubiquinol-cytochrome c reductase complex core protein 2 (UQCRC2) is an important subunit of mitochondrial respiratory complex III. However, its role in tumorigenesis and tumor progression remains unknown, especially with regards to colorectal cancer (CRC). In this research, we measured the expression of UQCRC2 protein by immunohistochemistry assay in 89 paired paraffin-embedded tumor tissues and corresponding adjacent normal tissues from patients with colorectal adenocarcinoma and investigated possible correlations of UQCRC2 expression with clinicopathological parameters and prognosis. We found that UQCRC2 was significantly upregulated in CRC tissues compared with adjacent normal tissues, and immunohistochemical UQCRC2 status was correlated to the depth of invasion (T), lymph node metastasis (N), advanced TNM stage. Multivariate analysis indicated that UQCRC2 remained an independent prognostic factor for poorer overall survival. Furthermore, we determined the role of UQCRC2-knockdown in CRC cells (RKO and HCT116) using lentivirus-mediated small hairpin RNAs (shRNAs). The effects of UQCRC2 knockdown on CRC cells (RKO and HCT116) proliferation were analyzed by cell proliferation and colony formation assay, and cell cycle and apoptosis were assessed by flow cytometry. We found that silencing UQCRC2 suppressed cell proliferation and colony formation in RKO and HCT116 cells, led to a cell cycle arrest and induced cell apoptosis in vitro. These results provided novel insights into the potential role of UQCRC2 in the tumorigenesis and progression of CRC, and revealed that UQCRC2 may serve as a new prognostic and therapeutic target in CRC.
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PMID:Overexpression of UQCRC2 is correlated with tumor progression and poor prognosis in colorectal cancer. 3011 36

Ubiquinol-cytochrome c reductase (UQCRB), a subunit of the mitochondrial complex III, is highly expressed in tissues from colorectal cancer patients. Since UQCRB is highly expressed in colorectal cancer, we investigated miRNAs from mutant UQCRB-expressing cell lines to identify new miRNA biomarkers. After sequencing miRNAs in the mutant UQCRB-expressing cell lines, miR-4435 was selected as a potential biomarker candidate from the six up-regulated miRNAs. The expression level of miR-4435 in the mutant UQCRB-expressing cell lines and colon cancer was increased. Notably, the expression level of miR-4435 was increased in exosomes isolated from cell culture medium, suggesting that miR-4435 is closely related to colon cancer and that large amounts of miR-4435 may be secreted outside of the cells through exosomes. Additionally, exosomes extracted from the serum samples of colorectal cancer patients showed increased miR-4435 levels depending on the cancer progression stage. Moreover, analyses of a miRNA database and mRNA-sequencing data of the mutant UQCRB-expressing cell lines revealed that TIMP3, a tumor suppressor, could be a target of miR-4435. Additionally, the expression of miR-4435 was suppressed by UQCRB inhibitor treatment whereas TIMP3 was up-regulated. Upregulation of TIMP3 decreased proliferation of the mutant UQCRB-expressing cell lines and a colorectal cancer cell line. TIMP3 was also upregulated in response to miR-4435 inhibitor and UQCRB inhibitor treatments. Furthermore, these findings suggest that miR-4435 is related to an oncogenic function in UQCRB related disease, CRC, and that effects migration and invasion on mutant UQCRB-expressing cell lines and colorectal cancer cell. In conclusion, our results identified miR-4435 as a potential circulating miRNA biomarker of colorectal cancer associated with UQCRB.
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PMID:MiR-4435 is an UQCRB-related circulating miRNA in human colorectal cancer. 3207 43