Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.6.99.5 (NADH dehydrogenase)
 2,135 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have shown that skin fibroblast from patients with cystic fibrosis (CF) and from carriers for CF [heterozygotes (HZ)] consume more O2 than do their controls. When the mitochondrial electron transport inhibitor rotenone was added to the cells, the relative inhibition of O2 consumption was CF greater than HZ greater than controls (P less than 0.005 in both comparisons). Because rotenone specifically inhibits NADH dehydrogenase, [NADH: (acceptor) oxidoreductase, EC 1.6.99.3], which is the enzyme of energy-conserving site 1 of the mitochondrial electron transport system, activity and kinetics of this enzyme system were studied in fibroblast homogenates. NADH dehydrogenase activity was equal in cells from the three genotypes. At pH 8.0, affinity of the enzyme for its substrate was CF greater than HZ = controls; at pH 8.6, affinity was CF greater than HZ = controls (P less than 0.005 for the differences). pH optima for the genotypes were without exception 8.6 (CF), 8.3 (HZ), and 8.0 (control). HZ and control lines were distinguished unequivocally in a blind test on the basis of differences in pH optima. Purified mitochondrial preparations revealed pH optima identical to those found in whole cell homogenates. These data suggest that the mutant gene responsible for CF is expressed in the complex mitochondrial NADH dehydrogenase system.
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PMID:Mitrochondrial NADH dehydrogenase in cystic fibrosis. 3 4

Cystic fibrosis (CF) remains a major problem in human genetics and cell pathophysiology. It is a single gene trait caused by a mutation on the long arm of chromosome 7. Among its expressions are abnormal regulation of chloride channels and/or microobstructions in exocrine tissues. Here, evidence is presented that mitochondria are dysfunctional in CF: the major site of increased intracellular Ca in CF is mitochondrial, cells from subjects with CF consume more oxygen than normal, respond differentially to inhibitors of mitochondrial function, express increased electron transport activity and altered kinetics of complex I (NADH dehydrogenase) of the mitochondrial electron transport system. Patients with CF express increased total and resting energy expenditure. Some of these differences from normal occur also in asymptomatic carriers of the CF gene.
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PMID:Evidence for a mitochondrial lesion in cystic fibrosis. 265 30

The kinetic properties of the NADH dehydrogenase of the mitochondrial respiratory chain, assayed as NADH-dependent rotenone-sensitive cytochrome c reductase have been studied in mitochondria isolated from mononuclear white blood cells in patients affected by cystic fibrosis. Data reported here show that the apparent Km of the enzyme for NADH is significantly decreased in cystic fibrosis mitochondria. These findings are independent of the age or the clinical state of the disease and have also been obtained with mitochondria isolated from cultured skin fibroblasts. These observations support the notion that cystic fibrosis is possibly accompanied by alterations of intracellular membranes and these are evident also in circulating cells and cultured fibroblasts.
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PMID:The Km of NADH dehydrogenase is decreased in mitochondria of cystic fibrosis cells. 316 72

Differences among cystic fibrosis (CF) genotypes (CF, obligate carriers for CF [HZ], and controls) in mitochondrial calcium pool size, oxygen (O2) consumption, and rotenone inhibition of O2 consumption led to examination of mitochondrial NADH dehydrogenase (NADH: [acceptor] oxidoreductase, E.C. 1.6.99.3). pH optima of mitochondrial NADH dehydrogenase were different in enzyme derived from whole cell homogenates of cultured skin fibroblasts of subjects with CF, HZ, and controls. We describe here apparent binding of substrate to the enzyme (Km [NADH]) in cell fractions. Km (NADH) for CF ranged from 10.9 to 16.1 micro M (no. = 7); for HZ from 20.9 to 26.3 microM (no. = 5). With three exceptions, Km for controls (no. = 12) ranged from 31.8 to 42.8 microM. Km of the three exceptional controls were 21.5, 23.7, and 22.4 microM (the latter two are identical twins). pH optima of enzyme from these three strains were no different from that of known HZ. The correlation between two kinetic parameters of an enzyme and the three CF genotypes suggests an association between the CF gene and mitochondrial NADH dehydrogenase.
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PMID:Mitochondrial NADH dehydrogenase in cystic fibrosis: enzyme kinetics in cultured fibroblasts. 718 Aug 43

Patients suffering from cystic fibrosis (CF) commonly harbor the important pathogen Pseudomonas aeruginosa in their airways. During chronic late-stage CF, P. aeruginosa is known to grow under reduced oxygen tension and is even capable of respiring anaerobically within the thickened airway mucus, at a pH of approximately 6.5. Therefore, proteins involved in anaerobic metabolism represent potentially important targets for therapeutic intervention. In this study, the clinically relevant "anaerobiome" or "proteogenome" of P. aeruginosa was assessed. First, two different proteomic approaches were used to identify proteins differentially expressed under anaerobic versus aerobic conditions. Microarray studies were also performed, and in general, the anaerobic transcriptome was in agreement with the proteomic results. However, we found that a major portion of the most upregulated genes in the presence of NO(3)(-) and NO(2)(-) are those encoding Pf1 bacteriophage. With anaerobic NO(2)(-), the most downregulated genes are those involved postglycolytically and include many tricarboxylic acid cycle genes and those involved in the electron transport chain, especially those encoding the NADH dehydrogenase I complex. Finally, a signature-tagged mutagenesis library of P. aeruginosa was constructed to further screen genes required for both NO(3)(-) and NO(2)(-) respiration. In addition to genes anticipated to play important roles in the anaerobiome (anr, dnr, nar, nir, and nuo), the cysG and dksA genes were found to be required for both anaerobic NO(3)(-) and NO(2)(-) respiration. This study represents a major step in unraveling the molecular machinery involved in anaerobic NO(3)(-) and NO(2)(-) respiration and offers clues as to how we might disrupt such pathways in P. aeruginosa to limit the growth of this important CF pathogen when it is either limited or completely restricted in its oxygen supply.
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PMID:Proteomic, microarray, and signature-tagged mutagenesis analyses of anaerobic Pseudomonas aeruginosa at pH 6.5, likely representing chronic, late-stage cystic fibrosis airway conditions. 1820 36