Kinetic alterations of cytochrome c oxidase in carbon tetrachloride induced cirrhotic rat liver

In a study of the chronic effects of CCl4 on the respiratory activities of rat liver mitochondria, the content of cytochrome c oxidase increased from 0.077 +/- 0.010 (nmol/mg protein) for normal rats to 0.101 +/- 0.009, and its specific activity increased from Vmax = 345 +/- 24 (e-/s/cytochrome aa3) to 431 +/- 19 in mitochondria of CCl4 treated rats. There was a slight increase in Km for cytochrome c from 5.63 +/- 0.08 microM to 7.79 +/- 0.80. These results would strongly suggest that an appreciable decrease in the steady state concentration of ATP in hepatic cells of CCl4 treated rats brought about a compensatory increase in the overall activity of cytochrome c oxidase. However, when the rate of oxygen uptake by mitochondria was measured in the presence of rotenone and tetramethyl-p-phenylene-diamine with NADH as substrate, the specific activity in CCl4 treated rats was lower than that of normal rats (Vmax = 345 +/- 31 (e-/s/cytochrome aa3), as compared to Vmax = 408 +/- 21) in spite of the increased activity of cytochrome c oxidase. This phenomenon was ascribed to a decrease in the activity of NADH cytochrome b5 reductase in the mitochondrial outer membrane due to CCl4 treatment.     

Lysosomal acid hydrolases in established lymphoblastoid cell lines,transformed by Epstein-Barr virus,from patients with genetic lysosomal storage diseases

Summary Lysosomal acid hydrolases were determined in established lymphoblastoid cell lines, transformed in vitro by Epstein-Barr virus (EBV) from lymphocyte-rich cell populations isolated from the peripheral blood of patients with genetic lysosomal storage diseases—Hurler syndrome, Scheie syndrome, G_M1-gangliosidosis type 1 and type 2, Tay-Sachs disease, and I-cell disease—and from obligate heterozygotes for these diseases.The respective enzyme activity was undectectable in lymphoblastoid cells from the patients, but not from controls. Obligate heterozygotes could not always be distinguished from controls in lymphoblastoid cells as well as in leukocytes. These results suggest that established lymphoblastoid cell lines are useful material for the enzymatic study of genetic lysosomal storage diseases.     

Physiological role of oxygenated cytochrome o: observations on whole-cell suspensions of Vitreoscilla.

The form of cytochrome o that predominates in Vitreoscilla cells having various levels of respiratory activity was studied by using untreated, frozen-thawed, and starved cells, which had respiratory rates decreasing in the order given. Direct spectral observation revealed that the oxygenated form of cytochrome o predominated during the aerobic steady-state oxidation of endogenous substrate or exogenous glutamate in untreated and frozen-thawed cells and was replaced by the reduced form when the cell suspensions became anaerobic. The respiratory rates, estimated inversely from the time of duration of the steady state, were correlated to the rates of oxygen consumption for the various cells. Oxidized cytochrome o predominated in aerobic starved cells. These results indicate the involvement of three forms of cytochrome o--oxidized, reduced, and oxygenated--in the catalytic and cyclic change of this cytochrome. The oxygenated form also appeared after the addition of hydrogen peroxide to the cells, but only the oxidized form appeared when ethyl hydrogen peroxide was added. The appearance of the oxygenated form with the addition of hydrogen peroxide was probably due to the reaction of the reduced cytochrome with the oxygen that had evolved by the action of catalase present in the cells.     

Translocated microbiome composition determines immunological outcome in treated HIV infection

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Functional heterogeneity of C-terminal peroxisome targeting signal 1 in PEX5-defective patients.

To investigate mechanisms related to functions of the peroxisome targeting signal (PTS) 1 receptor, Pex5p, we analyzed peroxisome matrix protein import in fibroblasts from three patients with peroxisome biogenesis disorders, all with different mutations in the PEX5 gene. The patients 2-01 (Zellweger syndrome) and 2-05 (neonatal adrenoleukodystrophy) have the reported mutations, R390X and N489K, and patient 2-03 (infantile Refsum disease) has a newly identified mutation, S563W. Fibroblasts from 2-03 (S563W) were detected in both PTS1 and PTS2 imports despite the PEX5 defect, findings in contrast with fibroblasts from 2-05 (N489K) severely defective in PTS1 import and those from 2-01 (R390X) severely defective in both PTS1 and PTS2. The PTS1 receptor in 2-03 is functional for only the C-terminal -SKL sequence (acyl-CoA oxidase) and had little or no function for C-terminal -AKL (D-bifunctional protein and sterol carrier protein 2) and -KANL (catalase) sequences, respectively. After transfection of these mutated PEX5 cDNA into the PEX5-defective CHO mutant, transformants of ZP102 revealed that each mutation was responsible for each dysfunction of the PTS1 import. It seems apparent that -AKL and -KANL are poorer variants of PTS1 and are likely to be more susceptible to effects of mutation of its receptor, Pex5p.     

Role of a bound ubiquinone on reactions of the Escherichia coli cytochrome bo with ubiquinol and dioxygen.

To probe the functional role of a bound ubiquinone-8 in cytochrome bo-type ubiquinol oxidase from Escherichia coli, we examined reactions with ubiquinol-1 and dioxygen. Stopped-flow studies showed that anaerobic reduction of the wild-type and the bound ubiquinone-free (DeltaUbiA) enzymes with ubiquinol-1 immediately takes place with four kinetic phases. Replacement of the bound ubiquinone with 2,6-dibromo-4-cyanophenol (PC32) suppressed the anaerobic reduction of the hemes with ubiquinol-1 by eliminating the fast phase. Flow-flash studies in the reaction of the fully reduced enzyme with dioxygen showed that the heme b-to-heme o electron transfer occurs with a rate constant of approximately 1x10(4) s(-1) in all three preparations. These results support our previous proposal that the bound ubiquinone is involved in facile oxidation of substrates in subunit II and subsequent intramolecular electron transfer to low-spin heme b in subunit I.     

The effect of cytochrome oxidase on lipid chain dynamics A nanosecond fluorescence depolarization study

Molecular motions in membranes composed of purified cytochrome oxidase (EC 1.9.3.1) and synthetic lipid (l-α-dimyristoylphosphatidylcholine or l-α-dioleoylphosphatidylcholine) at various ratios were investigated with a lipophilic fluorescent probe 1,6-diphenyl-1,3,5-hexatriene. Nanosecond fluorescence depolarization kinetics of the probe showed that the rod-shaped probe molecules perform a fast wobbling motion (restricted rotation) in all membranes studied, presumably reflecting the motion of lipid acyl chains. At temperatures where the pure lipid was in the liquid-crystalline phase, presence of cytochrome oxidase reduced the angular range of the wobbling motion, whereas its rate; the wobbling diffusion constant, was unaffected. On the other hand, incorporation of the protein into lipid in the gel phase resulted in the increase in the wobbling diffusion constant while the range of the wobbling motion remained the same. A time-dependent view of lipid dynamics that accounts for the above findings, as well as the results of recent electron spin resonance and nuclear spin resonance studies of protein-lipid interactions, is proposed.