Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:1.6.5.3 (
complex I
)
8,901
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Incubation of chromate with isolated rat liver submitochondrial particles under anaerobic conditions in vitro results in reduction of chromium(VI) and formation of chromium(V). In the presence of NADH, submitochondrial particles (SMPs) were active in reducing chromate as shown by UV-vis spectroscopic studies, and forming a chromium(V) species which was detectable by electron paramagnetic resonance spectroscopy. In the presence of succinate, SMPs were less effective in reducing chromate and forming chromium(V) relative to their NADH-dependent activity. However, SMPs showed a higher rate of oxygen depletion with NADH as compared to succinate as substrate, suggesting that differences in the NADH-dependent versus succinate-dependent chromate-reductase activity of SMPs is probably due to differences in efficiency of electron donation by succinate and NADH. The use of specific electron transport chain inhibitors allowed the sites of chromium(VI) reduction and chromium(V) formation in SMPs to be determined. Rotenone, antimycin and cyanide all produced approximately 40% inhibition of the NADH-dependent chromate-reductase activity. Thus,
complex I
(
NADH:ubiquinone oxidoreductase
) appears to be responsible for the inhibitor-insensitive, and complex IV (ferrocytochrome c:oxygen oxidoreductase) for the inhibitor-sensitive NADH-dependent chromium(VI) reduction and chromium(V) formation. Cyanide and antimycin produced approximately 50% inhibition of the succinate-dependent chromate-reductase activity of SMPs, while no detectable inhibition was observed with rotenone. These results confirm the chromate-reductase activity of complex IV, and suggest that complex II (succinate:ubiquinone oxidoreductase) is responsible for the inhibitor-insensitive succinate-dependent chromate-reductase activity of SMPs. Since chromium(VI) is effectively metabolized by electron transport chain complexes of the mitochondrial inner membrane in vitro, and chromium(V) is formed as an intermediate in the process, mitochondria may play a role in chromium(VI)
carcinogenesis
.
Carcinogenesis
1989 May
PMID:Chromium(V) is produced upon reduction of chromate by mitochondrial electron transport chain complexes. 253 17
Three isomeric quinone metabolites of the environmental carcinogen benzo[a]pyrene undergo reversible, univalent oxidation-reduction cycles involving the corresponding benzo[a]pyrene diols and intermediate semiquinone radicals. Under anaerobic conditions, benzo[a]pyrene 1,6-dione, benzo[a]pyrene 3,6-dione, and benzo[a]pyrene 6,12-dione are readily reduced by mild biological agents such as NADH and glutathione. The benzo[a]pyrene diols, in turn, are very rapidly autooxidized to diones when exposed to air. Substantial amounts of hydrogen peroxide are produced during these autooxidations. The benzo[a]pyrene diol/benzo[a]pyrene dione interconversions proceed by one-electron steps; the corresponding semiquinone radicals were detected as intermediates when the reactions were carried out at high pH. Benzo[a]pyrene diones are electron-acceptor substrates for
NADH dehydrogenase
. Catalytic amounts of these metabolites, together with this respiratory enzyme, function as cyclic oxidation-reduction couples to link NADH and molecular oxygen in the continuous production of hydrogen peroxide. Benzo[a]pyrene diones induce strand scissions when incubated with T7 DNA. The damage is modified by conditions that indicate that reduced oxygen species propagate the reactions responsible for strand scission. Benzo[a]pyrene diones are cytotoxic at low concentrations to cultured hamster cells. The cytotoxic effect can be substantially reduced by depletion of oxygen from the growth medium and the atmosphere in which the cells are incubated. The results support the hypothesis that the biological activity of benzo[a]pyrene diones is due to the regenerative oxidation-reduction cycles involving quinone and hydroquinone forms; activated oxygen species and semiquinone radicals formed during these cycles are most likely responsible for the observed cytotoxic action. The role of activated oxygen species in
carcinogenesis
is discussed.
...
PMID:Benzo[a]pyrene dione-benzo[a]pyrene diol oxidation-reduction couples; involvement in DNA damage, cellular toxicity, and carcinogenesis. 300 1
Light absorption, fluorescence and linear dichroism (l.d.) spectroscopy and fluorescence lifetime measurements reveal characteristic differences that arise from structural differences between the DNA complexes with the optical enantiomers (+)- and (-)-anti-benzo[a]pyrene-7,8-dihydrodiol-9,10-epoxides (BPDE), a strong and a weak carcinogen, respectively. Both types of complexes appear heterogeneous but can be described as composed of two major complex types I and II, in different proportions. Like previously observed for DNA modified by racemic anti-BPDE, the only distinguishable spectral component of (+)-anti-BPDE-DNA is the type II complex, whereas the (-)-anti-BPDE-DNA is a mixture of both types I and II complexes. The type I complex is characterized by negative I.d., a light absorption and excitation spectrum maximum (above 300 nm) at 354 nm and strong fluorescence quenching in native DNA, properties expected for an intercalation complex in the classical sense. The type II complex on the other hand is characterized by positive I.d., a light absorption and excitation spectrum maximum (above 300 nm) at 345 nm, and moderate fluorescence quenching in native DNA, properties not consistent with intercalation geometry. Rather, the BPDE chromophore forms less than 55 degree angle with the mean direction of the helix axis. Its interaction with the DNA bases seems to be less than in
complex I
, and is highly sensitive to Ag+ ions. The type II complex may be associated with local obstruction of base-pairing properties of native DNA. Since DNA-binding of chemical carcinogens is considered crucial for tumour initiation it follows that the unique properties of the type II BPDE-DNA complex may be of fundamental importance in benzo[a]pyrene
carcinogenesis
.
Carcinogenesis
1984 Sep
PMID:Spectroscopic studies of DNA complexes formed after reaction with anti-benzo[a]pyrene-7,8-dihydrodiol-9,10-oxide enantiomers of different carcinogenic potency. 643 55
The tumour promoting properties of carcinogenic 2-acetylaminofluorene (AAF) in rat liver are essentially unknown. We proposed that mitochondria are a target for the cytotoxic effects of 2-nitrosofluorene (NOF), a metabolite of AAF, since NOF induces a redox-cycle at
complex I
and complex III of the respiratory chain, and impairs respiration and oxidative phosphorylation. We now demonstrate that NOF is a potent inducer of the mitochondrial permeability transition pore (PTP) in isolated mitochondria. In the presence of Ca2+, NOF induced rapid swelling of mitochondria in a dose-dependent manner and depolarized the mitochondrial membrane. Permeability transition as well as depolarization were abolished completely by pre-incubation with the PTP inhibitor cyclosporin A. To study whether the PTP is involved in in vivo toxicity, rats were fed a diet containing AAF (0.04%) for 2 weeks. After isolation of mitochondria, permeability transition was induced by high Ca2+ concentrations (150-400 microM) or phosphate plus Ca2+. Swelling was determined as maximal rate of absorption decrease at 540 nm (delta A/delta t). Surprisingly, delta A/delta t-values of mitochondria from AAF-fed rats were significantly lower (16.3 +/- 4.8 x 10(3)/min) than of mitochondria from control animals (32.7 +/- 4.1 x 10(3)/min; P < 0.02). In the presence of phosphate (15 mM), delta A/delta t-values of mitochondria from AAF-fed rats were even lower (10% of control). Moreover, the membrane potential which was dissipated rapidly by the PTP-inducer NOF (30 microM) at a Ca2+ concentration of 80 microM in mitochondria from control animals, remained constant in mitochondria of AAF-treated rats. We therefore propose that the regulation of the PTP is altered on chronic AAF-feeding. The increased resistance of mitochondria against permeability transition may alter the threshold for apoptosis and thus suppress apoptosis. We also discuss the role of epigenetic modifications in early stages of
carcinogenesis
.
Carcinogenesis
1998 Jul
PMID:Mitochondrial permeability transition is altered in early stages of carcinogenesis of 2-acetylaminofluorene. 968 76
Removal of choline from the diet results in accumulation of triglycerides in the liver, and chronic dietary deficiency produces a non-genotoxic model of hepatocellular carcinoma. An early event in choline deficiency is the appearance of oxidized lipid, DNA and protein, suggesting that increased oxidative stress may facilitate neoplasia in the choline deficient liver. In this study, we find that mitochondria isolated from rats fed a choline-deficient, L-amino acid defined diet (CDAA) demonstrate impaired respiratory function, particularly in regard to
complex I
-linked (NADH-dependent) respiration. This impairment in mitochondrial electron transport occurs coincidentally with alterations in phosphatidylcholine metabolism as indicated by an increased ratio of long-chain to short-chain mitochondrial phosphatidylcholine. Moreover, hydrogen peroxide (H(2)O(2)) generation is significantly increased in mitochondria isolated from CDAA rats compared with mitochondrial from normal rats, and the NADH-specific yield of H(2)O(2) is increased by at least 2.5-fold. These findings suggest an explanation for the rapid onset of oxidative stress and energy compromise in the choline deficiency model of hepatocellular carcinoma and indicate that dietary choline withdrawal may be a useful paradigm for the study of mitochondrial pathophysiology in
carcinogenesis
.
Carcinogenesis
2000 May
PMID:Dietary choline restriction causes complex I dysfunction and increased H(2)O(2) generation in liver mitochondria. 1078 22
Renal oncocytomas are benign tumors characterized by dense accumulation of mitochondria the cause of which remains unknown so far. Consistently, mitochondrial DNA content and the amounts and catalytic activities of several oxidative phosphorylation (OXPHOS) complexes were known to be increased in these tumors, but it was not ascertained that the OXPHOS system was functional. Here we investigated mitochondrial
complex I
and found that its
NADH dehydrogenase
activity and protein content were specifically decreased in oncocytomas, in stark contrast with the parallel decrease of all respiratory chain complexes in other, malignant, renal tumors. We conclude that deficiency of
complex I
in oncocytomas might be the early event causing the increased mitochondrial biogenesis, attempting to compensate for the loss of OXPHOS function. Since other tumors were found to be linked to mitochondrial deficiencies like genetic alterations of fumarate hydratase or succinate dehydrogenase, oncocytoma could be the third type of benign tumor associated with impairment of mitochondrial ATP production in an oxidative, quiescent tissue. Besides,
complex I
enzyme activity was moderately decreased in the vicinity of oncocytomas, when compared with normal tissue adjacent to other renal tumors. This suggested that oncocytomas are the result of at least two serial modifications altering the mitochondrial respiratory chain.
Carcinogenesis
2003 Sep
PMID:Mitochondrial complex I is deficient in renal oncocytomas. 1284 84
Subtraction hybridization was earlier used to obtain cDNA clones corresponding to human genes upregulated in HIV-associated centroblast lymphoma (CL) as compared with HIV-associated immunoblast lymphoma (IL). With inverse subtraction hybridization, clones were isolated that correspond to genes upregulated in IL compared with CL. In addition to cDNAs characterized earlier, the resulting clones contained several (seven CL-specific and three IL-specific) sequences with unknown functions. To identify the lymphoma-specific genes that are overexpressed in early
carcinogenesis
, Northern blotting was used to assess the level of gene transcription in two human fibroblast lines and in their derivatives immortalized with either a temperature-sensitive mutant of SV-40 or with pSV3neo carrying the SV-40 A gene, considering the latter as a model of early cell malignant transformation. Increased expression in at least one immortalized line compared with normal fibroblasts was observed for set, a-myb, ND1, ND2, ND4 (
NADH dehydrogenase
subunits 1, 2, and 4), COX2, COX3 (cytochrome-c-oxidase subunits 2 and 3), KIAA0129, and the gene corresponding to cDNA hss2-1-7-10. High expression of these genes was assumed to be associated not only with lymphomogenesis, but also with early transformation (immortalization) of other, nonlymphoid cells. Expression of the calpain gene and the gene corresponding to cDNA hss2-2-9-5 proved to be lower in immortalized than in normal fibroblasts. This was considered indicative of an alternative mechanism of fibroblast transformation or of different processes regulating the expression of these genes in early and late
carcinogenesis
.
...
PMID:[Analysis of expression of a series of lymphoma-specific genes in human fibroblasts immortalized by SV40 virus]. 1512 32
Nonmelanoma skin cancer afflicts more than one million people in the U.S. annually, highlighting the need for more effective preventive regimens. We have investigated the ability of deguelin, a plant-derived rotenoid with cancer chemopreventive activity, to inhibit UVB-induced skin
carcinogenesis
with the SKh-1 mouse model. Topically-applied deguelin significantly inhibited the multiplicity of UVB-induced skin tumors, indicating potential as a human skin cancer chemopreventive agent. Mechanistic studies to determine the potential of deguelin to block a number of established UVB-induced molecular events yielded negative results [including UVB-induced AP-1 DNA binding, c-fos and TNFalpha mRNA induction, arachidonic acid release and UVB-induced phosphorylation of mTOR (Ser2448), akt (Ser473) and erk (Thr202/Tyr204)]. These results are of interest as they contradict a major hypothesis for the mode of action of deguelin, i.e., a general down regulation of signal transduction based on inhibition of
NADH dehydrogenase
and depletion of ATP levels. In the current work, however, deguelin was found to activate 5' AMP-activated kinase (AMPK), a protein that acts as a cellular energy sensor. This is the first report of a chemopreventive agent having this effect and suggests a possible role for AMPK in cancer chemoprevention.
...
PMID:Effect of deguelin on UVB-induced skin carcinogenesis. 1604 63
Hepatitis C infection causes a state of chronic oxidative stress, which may contribute to fibrosis and
carcinogenesis
in the liver. Previous studies have shown that expression of the HCV core protein in hepatoma cells depolarized mitochondria and increased reactive oxygen species (ROS) production, but the mechanisms of these effects are unknown. In this study we examined the properties of liver mitochondria from transgenic mice expressing HCV core protein, and from normal liver mitochondria incubated with recombinant core protein. Liver mitochondria from transgenic mice expressing the HCV proteins core, E1 and E2 demonstrated oxidation of the glutathione pool and a decrease in NADPH content. In addition, there was reduced activity of electron transport
complex I
, and increased ROS production from
complex I
substrates. There were no abnormalities observed in complex II or complex III function. Incubation of control mitochondria in vitro with recombinant core protein also caused glutathione oxidation, selective
complex I
inhibition, and increased ROS production. Proteinase K digestion of either transgenic mitochondria or control mitochondria incubated with core protein showed that core protein associates strongly with mitochondria, remains associated with the outer membrane, and is not taken up across the outer membrane. Core protein also increased Ca(2+) uptake into isolated mitochondria. These results suggest that interaction of core protein with mitochondria and subsequent oxidation of the glutathione pool and
complex I
inhibition may be an important cause of the oxidative stress seen in chronic hepatitis C.
...
PMID:Hepatitis C virus core protein inhibits mitochondrial electron transport and increases reactive oxygen species (ROS) production. 1615 Jul 32
All tumors examined to date contain mutations in mitochondrial DNA (mtDNA). In addition, depletion of mtDNA is reported in a variety of tumors. Mitochondrial dysfunction resulting from changes in mtDNA invokes mitochondria-to-nucleus retrograde response in human cells. To identify proteins involved in retrograde response and their potential role in tumorigenesis, we carried out a comparative proteomic analysis using a cell line in which the mitochondrial genome was completely depleted (rho(0) cells lacking all mtDNA-encoded protein subunits), a cybrid cell line in which mtDNA was restored, and the parental cell line. Our comparative proteomic approach revealed marked changes in the cellular proteome and led us to identify quantitative changes in expression of several proteins. We found that subunits of
complex I
and complex III, molecular chaperones, and a protein involved in cell cycle control were downregulated and Inosine 5'-monophosphate dehydrogenase type 2 (IMPDH2) involved in nucleotide biosynthesis was upregulated in rho(0) cells. Our findings demonstrate that the expression of proteins is restored to wild type level by transfer of wild type mitochondria to rho(0) cells, suggesting that these proteins play key roles in retrograde response. To determine a potential role for identified retrograde responsive proteins in tumorigenesis, we analyzed the expression of UQCRC1 gene (encoding ubiquinol cytochrome-c reductase core protein I) in breast and ovarian tumors. We found that (1) UQCRC1 was highly expressed in breast (74%) and ovarian tumors (34%) and (2) the expression positively correlated with cytochrome c-oxidase (COXII) encoded by mtDNA. Our study opens an avenue for identification of retrograde proteins as potential tumor suppressors or oncogenes involved in
carcinogenesis
.
...
PMID:Proteomic analysis of mitochondria-to-nucleus retrograde response in human cancer. 1696 84
1
2
3
Next >>
