The enzymic reduction and kinetics of oxidation of cytochrome b-245 of neutrophils.

1. The absorption coefficient of human neutrophil plasma-membrane reduced-minus-oxidized cytochrome b-245 was determined [delta epsilon (mM; 559-540 nm) = 21.6 cm-1]. 2. Neutrophil polymorphonuclear leucocytes (neutrophils) were prepared from human, ox, horse and pig blood. In each case plasma-membrane fractions were found to contain low-potential cytochrome b. When membranes from horse neutrophils were incubated anaerobically with either NADH or NADPH the cytochrome b became reduced. Prior stimulation of the cells with phorbol myristate acetate did not increase the rate or extent of cytochrome b reduction in isolated membranes, but did increase both the rate and extent of reduction by NADPH in Triton-treated cells. 3. A cytochrome b was present also in the specific granule fraction of human neutrophils. Its Em (pH 7.0) was found to be -248 mV, very similar to that of the plasma-membrane cytochrome b. 4. The rate of oxidation of reduce cytochrome b-245 by air-saturated buffer, was determined by using stopped-flow techniques. In intact membranes t 1/2 for oxidation was 4.7 ms. This rate is sufficiently rapid to support the view that cytochrome b-245 is the oxidase in the respiratory burst of neutrophils. 5. Plasma-membrane cytochrome b of human neutrophils formed a complex with CO. At room temperature and 1 atm of CO approx. 40% of the cytochrome formed a complex; approx. 60% binding was measured at the increased concentration of dissolved CO achieved at 5 degrees C. The concentration of CO giving 50% binding was 1.18 mM.     

The respiratory burst of bovine neutrophils. Role of a b type cytochrome and coenzyme specificity

A new method of preparation of bovine polymorphonuclear leukocytes (PMN) is described. The subcellular distribution of cytochrome b in resting and activated bovine PMN was compared to that of the O2-.-generating oxidase (assessed as NADPH cytochrome c reductase inhibited by superoxide dismutase). In resting PMN and in PMN activated by phorbol myristate acetate (PMA), cytochrome b was located into two membrane fractions, one of which was enriched in plasma membrane and cosedimented with alkaline phosphatase, while the other consisted of a denser material cosedimenting with markers of the specific and azurophil granules, i.e. the vitamin-B12-binding protein and myeloperoxidase respectively. During activation of PMN by PMA, 15-20% cytochrome b migrated from dense granules to the plasma membrane. The distribution of the O2-. generating oxidase and cytochrome b in subcellular particles was studied during the course of phagocytosis of PMA-coated latex beads by bovine PMN. At the onset of the respiratory burst, the phagocytic vacuoles arising from internalization of the plasma membrane were enriched in oxidase and alkaline phosphatase, but their specific content of cytochrome b was limited; in contrast, cytochrome b was predominant in denser membrane fractions cosedimenting with myeloperoxidase and the vitamin-B12-binding protein. After a few minutes of phagocytosis, a fraction of light vacuoles, slightly denser than the phagocytic vacuoles, became enriched in O2-.-generating oxidase, cytochrome b, the vitamin-B12-binding protein and myeloperoxidase. These vacuoles probably arose from the fusion of the phagocytic vacuoles with dense granules. In bovine PMN supplemented with glucose and maintained in anaerobiosis, activation by PMA induced slow reduction of cytochrome b (60-70% in 15 min at 37 degrees C). Similar results were obtained with cytoplasts after activation by PMA (30% reduction in 3 min at 37 degrees C). Cytochrome b in a particulate fraction obtained by centrifugation at 100 000 X g of an homogenate of PMA-activated PMN, was slowly reduced upon addition of NADPH under anaerobiosis (less 20% in 20 min at 37 degrees C). No reduction occurred in the 100 000 X g fraction prepared from non-activated PMN. The Soret band of cytochrome b reduced by dithionite was displaced by CO only by 1-2 nm. At subsaturating concentrations, CO had no effect on the rate of O2 uptake by activated bovine PMN.(ABSTRACT TRUNCATED AT 400 WORDS)     

Molecular basis of macrophage activation. Expression of the low potential cytochrome b and its reduction upon cell stimulation in activated macrophages

The expression of the novel b-type cytochrome, which is part of the superoxide anion (O2-)-generating system in phagocytes, has been investigated in population of mouse peritoneal macrophages heterogeneous in their capability to produce O2-). Reduced minus oxidized difference spectra of intact cells showed the appearance of a b-type cytochrome with major peaks in the alpha region at 558 to 559 nm and in the gamma region at 426 to 428 nm. Resident peritoneal macrophages, as well as thioglycollate broth-elicited and Corynebacterium Parvum-activated macrophages and neutrophils expressed about 50 pmol cytochrome b/10(7) cells. In intact macrophages and neutrophils, Na-dithionite reduced greater than 75% of the cytochrome b measurable in disrupted cells. No correlation was found between capability to produce O2-) by different population of macrophages and their content of cytochrome b. When stimulated in strictly anaerobic conditions with phorbol myristic acetate, macrophages activated in vivo by i.p. injection of Corynebacterium Parvum reduced approximately 40% of their total cytochrome b. In resident peritoneal macrophages that produced five times lower amounts of O2-, cytochrome b reduction was instead undetectable. Potentiometric properties of cytochrome b was investigated in macrophage subcellular particles. Both resident and Corynebacterium Parvum-activated macrophages revealed the presence of b chromophores with very low potentials of -255 and -244 mV, respectively, whose content was not different in the two populations. These results show that resident and activated macrophages express the same amount of cytochrome b, but upon stimulation with PMA, activated macrophages recruit a higher number of cytochrome b molecules in parallel with an enhanced production of O2-.     

Excretion of superoxide by phagocytes measured with cytochrome c entrapped in resealed erythrocyte ghosts

Resealed erythrocyte membranes (ghosts) filled with (Fe3+)cytochrome c were used as an assay system to measure the release of superoxide (O-2) from human phagocytes into the incubation medium. Neutrophils, activated by either opsonized zymosan particles or the soluble stimulus phorbol myristate acetate, released O-2, which subsequently entered the ghosts and reduced (Fe3+)cytochrome c. This reaction was dependent on the time of incubation, the concentration of neutrophils, the concentration of stimulus, and the concentration of ghosts. The reaction was completely inhibited by superoxide dismutase and by 4,4'-diisothiocyano-2,2'-disulfonic acid, a specific blocker of anion channels in membranes. The reduction of (Fe3+)cytochrome c free in solution was about four times as fast as the reduction of (Fe3+)cytochrome c in the ghosts. Human eosinophils stimulated by phorbol myristate acetate reacted similarly to human neutrophils; the rate of O-2 production/cell was about twice as high for eosinophils as for neutrophils. In contrast, eosinophils stimulated with opsonized zymosan particles only reduced (Fe3+)cytochrome c free in solution, but not (Fe3+)cytochrome c in ghosts. This lack of reaction was not due to production of an inhibitor or below threshold generation of O-2 for the ghost assay. These results indicate: 1) activated human neutrophils and eosinophils can release O-2 or a similar product into the incubation medium; and 2) reduction of (Fe3+)cytochrome c free in solution is no proof for O-2 excretion by phagocytes.     

The reduction of cytochrome b558 and the activity of the respiratory burst oxidase from human neutrophils.

It is known that in respiratory burst oxidase preparations engaged in O2- production, cytochrome b558, a characteristic oxidase component, is partly reduced. This result has been interpreted in terms of a mechanism in which cytochrome b558 functions as an electron-carrying component of the respiratory burst oxidase, its level of reduction reflecting a steady-state partitioning of the cytochrome between reduced and oxidized forms as it ferries electrons from NADPH to oxygen. Kinetic arguments based on this interpretation have supported the proposal that the cytochrome is reduced at a rate sufficient to account for the rate of O2- production by activated neutrophils. We have confirmed the partial reduction of cytochrome b558 in neutrophil cytoplasts and in oxidase preparations exposed to NADPH, but have found that the reduction of the cytochrome bears no apparent relation to the activity of the oxidase, and can occur when NADPH is added to neutrophil membrane preparations that are unable to manufacture O2-. We therefore conclude that the NADPH-dependent reduction of cytochrome b558 seen in these preparations is unlikely to be a reflection of a catalysis-related steady state and that inferences drawn from such observations regarding the kinetic competence of the cytochrome may need to be reconsidered.     

The superoxide-generating oxidase of leucocytes. NADPH-dependent reduction of flavin and cytochrome b in solubilized preparations.

An NADPH-dependent O2.- -generating oxidase was solubilized from phorbol 12-myristate 13-acetate-activated pig neutrophils by using a mixture of detergents. Recovery of oxidase was approx. 40%. The extract contained cytochrome b-245 (331 pmol/mg of protein) and FAD (421 pmol/mg of protein); approx. 30% of each was reduced within 60s when NADPH was added to anaerobic incubations. Three different additives, quinacrine, p-chloromercuribenzoate and cetyltrimethylammonium bromide, strongly inhibited O2.- generation; they also inhibited the reduction by NADPH of cytochrome b at the same low concentrations. In the presence of p-chloromercuribenzoate cytochrome b reduction was strongly inhibited and flavin reduction was less inhibited. A detergent extract prepared from non-stimulated neutrophils also contained flavin and cytochrome b, but its rate of O2.- production was less than 1% of that from activated cells; its initial rate of cytochrome b and flavin reduction was low, although the state of reduction at equilibrium was similar to that of extracts of activated cells. Even in the non-activated cell extract the reduction of flavin and cytochrome was made fast and complete when Methyl Viologen was added to the anaerobic incubations. The oxidase was temperature-sensitive, with a sharp maximum at 25 degrees C; temperatures above this caused loss of O2.- generation, and this coincided with loss of the characteristic cytochrome b spectrum, indicate of denaturation of the cytochrome. The cytochrome b formed a complex with butyl isocyanide (close to 100% binding at 10mM); butyl isocyanide also inhibited the oxidase activity of stimulated whole neutrophils (22.5% inhibition at 10mM). Photoreduced FMN stimulated O2 uptake by the oxidase. The results support a scheme of electron transport within the oxidase complex involving NADPH, FAD, cytochrome b-245 and O2 in that sequence.     

Activating effect of light irradiation at various wavelength on the respiration in sperm of the echiuroid, Urechis unicinctus, in the presence of carbon monoxide.

In sperm of the echiuroid, Urechis unicinctus, respiration in the presence of CO was reversibly augmented by light irradiation in an examined range of wavelengths between 350 and 650 nm. The respiratory rate of sperm in the presence of CO was enhanced by light irradiation in proportion to the light fluence rate. A sharp and large peak was obtained at the wavelength of 430 nm in the action spectrum of photo-activated respiration of sperm in the presence of CO. Broad and small peaks were also found at around 530 and 570 nm. This action spectrum is similar in its profile to the absorption spectrum of reduced cytochrome b. Absorption of photon energy by reduced b-type cytochrome probably activates the redox reaction of this cytochrome to enhance the respiratory rate. Photo-activated respiration in the presence of CO was inhibited by antimycin A and cyanide. In this respiratory system, an electron equivalent is probably transferred through the mitochondrial respiratory chain between cytochrome b and cytochrome c and finally to molecular oxygen in the reaction catalyzed by the CO-insensitive terminal oxidase.     

Resonance Raman microspectroscopy of myeloperoxidase and cytochrome b558 in human neutrophilic granulocytes.

With (resonance) Raman microscospectroscopy, it is possible to investigate the chemical constitution of a very small volume (0.5 fl) in a living cell. We have measured resonance Raman spectra in the cytoplasm of living normal, myeloperoxidase (MPO)-deficient, and cytochrome b558-deficient neutrophils and in isolated specific and azurophilic granule fractions, using an excitation wavelength of 413.1 nm. Similar experiments were performed after reduction of the redox centers by the addition of sodium dithionite. The specific and azurophilic granules in both redox states appeared to have clearly distinguishable Raman spectra when exciting at a wavelength of 413.1 nm. The azurophilic granules and the cytochrome b558-deficient neutrophils showed Raman spectra similar to that of the isolated MPO. The spectra of the specific granules and the MPO-deficient neutrophils corresponded very well to published cytochrome b558 spectra. The resonance Raman spectrum of the cytoplasmic region of normal neutrophilic granulocytes could be fitted with a combination of the spectra of the specific and azurophilic granules, which shows that the Raman signal of neutrophilic granulocytes mainly originates from MPO and cytochrome b558, at an excitation wavelength of 413.1 nm.     

Partial purification of the superoxide-generating system of macrophages. Possible association of the NADPH oxidase activity with a low-potential (−247 mV) cytochrome b

NADPH oxidase activity was solubilized by detergent treatment of subcellular particles obtained from guinea-pig peritoneal macrophages stimulated with phorbol myristate acetate. Gel filtration of the material containing the NADPH oxidase activity gave two peaks of proteins, one of which eluted with the void and the other with the included volume of an AcA 22 column. The material eluted in the void volume contained more than 50% of the NADPH oxidase activity and less than 10% of the NAD(P)H cytochrome c reductase activity. A b-type cytochrome with peaks of absorption at 558, 528 and 426 nm was also enriched in the fraction which contained the NADPH oxidase activity. The distribution of flavoproteins as revealed by the measurement of FAD was different from that of NADPH oxidase and cytochrome b, and followed the elution profile of NADH cytochrome c reductase. Studies in subcellular particles showed that the b cytochromes of mitochondria and endoplasmic reticulum reduced by selective biochemical means accounted for only a minor part of the total b-type cytochromes and that the new cytochrome b previously described in neutrophils is the major chromophore also in macrophages. Oxidation-reduction midpoint potential of the partially purified cytochrome b was shown to be −247 mV. Association of cytochrome b with the NADPH oxidase activity and its very low E_m7.0 makes it a suitable candidate to be part of the superoxide-generating system also in macrophages.     

Purification and some properties of ubiquinol oxidase from obligately chemolithotrophic iron-oxidizing bacterium, Thiobacillus ferrooxidans NASF-1

Ubiquinol-oxidizing activity was detected in an acidophilic chemolithotrophic iron-oxidizing bacterium, T. ferrooxidans. The ubiquinol oxidase was purified 79-fold from plasma membranes of T. ferrooxidans NASF-1 cells. The purified oxidase is composed of two polypeptides with apparent molecular masses of 32,600 and 50,100 Da, as measured by gel electrophoresis in the presence of sodium dodecyl sulfate. The absorption spectrum of the reduced enzyme at room temperature showed big peaks at 530 and 563, and a small broad peak at 635 nm, indicating the involvement of cytochromes b and d. Characteristic peaks of cytochromes a and c were not observed in the spectrum at around 600 and 550 nm, respectively. This enzyme combined with CO, and its CO-reduced minus reduced difference spectrum showed peaks at 409 nm and 563 nm and a trough at 431 nm. These results indicated that the oxidase contained cytochrome b, but the involvement of cytochrome d was not clear. The enzyme catalyzed the oxidations of ubiquinol-2 and reduced N,N,N',N'-tetramethyl-p-phenylenediamine dihydrochloride. The ubiquinol oxidase activity was activated by the addition of albumin and lecithin to the reaction mixture and inhibited by the respiratory inhibitors KCN, HQNO, NaN3, and antimycin A1, although the enzyme was relatively resistant to KCN, and the divalent cation, Zn2+, compared with ubiquinol oxidases of E. coli.     

Oxidation-reduction properties of the cytochrome b found in the plasma-membrane fraction of human neutrophils. A possible oxidase in the respiratory burst.

The oxidation-reduction midpoint potential of the cytochrome b found in the plasma membrane of human neutrophils has been determined at pH 7.0 (Em,7.0) from measurements of absorption spectra at fixed potentials. In both unstimulated and phorbol myristate acetate-stimulated cells Em,7.0 was -245 mV. Changes in pH affected the Em of the cytochrome b, with a slope of approx. 25 mV/pH unit change. The Em,7.0 of the haem group(s) of the membrane-bound myeloperoxidase of human neutrophils was found to be +34 mV. The plasma membranes contained no detectable ubiquinone, and no iron-sulphur compounds were detected by e.p.r. spectroscopy at 5-20 K. No flavins were detected by e.p.r. spectroscopy. The cytochrome b-245 was not reduced by added NADH or NADPH. Dithionite-reduced cytochrome b-245 formed a complex with CO, supplied as a saturated solution, which was dissociated with 26 microseconds illumination from a xenon flash lamp, and the recombination with CO had a half-time of approx. 6 ms. Partly (80%) reduced cytochrome b-245 was oxidized by added air-saturated buffer with a half-time faster than 1 s at 20 degrees C, a resolution limited by mixing time. These results are compatible with cytochrome b-245 acting as an oxidase.     

Retinoic acid metabolism by a system reconstituted with cytochrome P-450

Feeding rats with a diet containing a hundred times the normal amount of vitamin A resulted, within 2 to 3 weeks, in an increase in total hepatic microsomal cytochrome P-450 content. This was associated, in isolated microsomes, with an enhanced conversion of all-trans-retinoic acid to polar metabolites, including a two- to threefold increased production of 4-hydroxy- and 4-oxo-retinoic acid, whether expressed per microsomal protein or per cytochrome P-450. Unlike effects of other inducers (e.g., phenobarbital or methylcholanthrene), activities of benzphetamine, aminopyrine, and ethylmorphine demethylases or benzopyrene hydroxylase were not increased. Furthermore, the CO-reduced difference spectral peak was shifted towards 449 nm. On sodium dodecyl sulfate-gel electrophoresis, one band was increased with electrophoretic mobility identical to that of cytochrome P-450f, a recently isolated new form which has a CO-reduced difference spectral peak at 448 nm. In a system reconstituted with NADPH-cytochrome P-450 reductase, NADPH, and phospholipid, purified cytochromes P-450f and b were discovered to promote conversion of retinoic acid to polar metabolites, including 4-hydroxy-retinoic acid.     

Uncompetitive inhibition of superoxide generation by a synthetic peptide corresponding to a predicted NADPH binding site in gp91-phox, a component of the phagocyte respiratory oxidase

The large subunit of cytochrome b558, gp91-phox, is believed to play a key role in superoxide generation in neutrophils by accepting electrons from NADPH and donating them to molecular oxygen. We found that a peptide corresponding to a predicted NADPH binding site in gp91-phox inhibited superoxide generation in a cell-free system consisting of neutrophil membrane and cytosol. Minimum essential sequence for the inhibition was KSVWYK, which corresponded to residues 420-425 (IC50 = 30 microM). Unlike other peptides known to inhibit the reaction, this peptide was effective even when added to the system after activation or to activated membrane from stimulated neutrophils. Furthermore, the peptide inhibited superoxide generation in a membrane system activated without cytosol. Kinetic analysis revealed that the peptide inhibited the reaction uncompetitively. These results suggest that the peptide combines with the activated cytochrome b558-NADPH complex and thereby inhibits electron transfer from NADPH to molecular oxygen.     

Studies on the electron-transfer mechanism of the human neutrophil NADPH oxidase.

A superoxide-generating NADPH oxidase was solubilized from phorbol 12-myristate 13-acetate-activated human neutrophils with a mixture of sodium deoxycholate (0.125%, w/v) and Lubrol-PX (0.125%, v/v). The solubilized preparation contained FAD (577 pmol/mg of protein) and cytochrome b-245 (479 pmol/mg of protein) and produced 11.61 mol of O2-./s per mol of cytochrome b (340 nmol of O2-./min per mg of protein). On addition of NADPH, the cytochrome b-245 was reduced by 7.9% and the FAD by 38% in the aerobic steady state; NADH addition caused little steady-state reduction of cytochrome b and FAD. In this preparation, and several others, the measured rate of O2-. production correlated with the turnover of cytochrome b calculated from the extent of cytochrome b-245 reduction under aerobic conditions. Addition of diphenyleneiodonium abolished the reduction of both the FAD and cytochrome b-245 components and inhibited O2-. production. The haem ligand imidazole inhibited O2-. generation and cytochrome b reduction while permitting FAD reduction. These results support the suggestion that the human neutrophil NADPH oxidase has the electron-transport sequence: NADPH----FAD----cytochrome b-245----O2.     

Cytochrome components of plant microsomes.

The electron transport components of the microsomal fraction of cauliflower buds and mung bean hypocotyls were investigated using split-beam and dual wavelength spectrophotometry under a variety of reducing conditions. Cauliflower microsomes were found to contain an ascorbate-reducible component, termed cytochrome b-559.5 [E'0 = +135 +/- 20 mV; lambdamax (reduced minus oxidised) = 559.5, 527 and 429 nm at 23 degrees C], cytochrome b5 [E'0 = -20 +/- 20 mV; lambdamax (reduced minus oxidised) = 556, 526 and 425 nm at 23 degrees C], cytochromes P-450 and P-420. On the basis of binding studies with ethyl isocyanide, degradation of cytochrome P-450 to P-420, redox potential, aniline binding, and relative rates of reduction by NADPH and NADH, it is suggested that the cytochrome P-450 system is analogous to that mammalian microsomes. Other components, reducible only by dithionite, may also be present. Mung bean microsomes were found to contain an ascorbate-reducible component, termed cytochrome b-562 [E'0 = +120 +/- 20 mV; lambdamax (reduced minus oxidised) = 562, 528 and 430 nm at 23 degrees C], cytochrome b5, and a low potential component which was reducible only by sodium dithionite. No cytochrome P-450 or P-420 could be detected. A general method of analysis of the cytochromes was developed and applied to the microsomes from a variety of plant sources. The results indicate that large variations, both in type and amount of components, occur between the microsomes from different plant materials.     

P67-phox-mediated NADPH oxidase assembly: imaging of cytochrome b558 liposomes by atomic force microscopy

NADPH oxidase activity depends on the assembly of the cytosolic activating factors, p67-phox, p47-phox, p40-phox, and Rac with cytochrome b(558). The transition from an inactive to an active oxidase complex induces the transfer of electrons from NADPH to oxygen through cytochrome b(558). The assembly of oxidase complex was studied in vitro after reconstitution in a heterologous cell-free assay by using true noncontact mode atomic force microscopy. Cytochrome b(558) was purified from neutrophils and Epstein-Barr virus-immortalized B lymphocytes and incorporated into liposomes. The effect of protein glycosylation on liposome size and oxidase activity was investigated. The liposomes containing the native hemoprotein purified from neutrophils had a diameter of 146 nm, whereas after deglycosylation, the diameter was reduced to 68 nm, although oxidase activity was similar in both cases. Native cytochrome b(558) was used after purification in reconstitution experiments to investigate the topography of NADPH oxidase once it was assembled. For the first time, atomic force microscopy illustrated conformational changes of cytochrome b(558) during the transition from the inactive to the active state of oxidase; height measurements allow the determination of a size of 4 nm for the assembled complex. In the processes that were studied, p67-phox displayed a critical function; it was shown to be involved in both assembly and activation of oxidase complex while p47-phox proceeded as a positive effector and increased the affinity of p67-phox with cytochrome b(558), and p40-phox stabilizes the resting state. The results suggest that although an oligomeric structure of oxidase machinery has not been demonstrated, allosteric regulation mechanisms may be proposed.     

Titration and steady-state behaviour of the 830 nm chromophore in cytochrome c oxidase.

Titration of cyanide-incubated cytochrome c oxidase (ox heart cytochrome aa3) with ferrocytochrome c or with NNN'N'-tetramethyl-p-phenylenediamine initially introduces two reducing equivalents per mol of cytochrome aa3. The first equivalent reduces the cytochrome a haem iron; the second reducing equivalent is not associated with reduction of the 830 nm chromophores (e.p.r.-detectable copper) but is probably required for reduction of the e.p.r.-undetectable copper. Excess reductant introduces a third reducing equivalent into the cyanide complex of cytochrome aa3. During steady-state respiration in the presence of cytochrome c and ascorbate, the 830 nm chromophore is almost completely oxidized. It is reduced more slowly than cytochrome a on anaerobiosis. In the presence of formate or azide, some reduction at 830 nm can be seen in the steady state; in an oxygen-pulsed system, a decrease in steady-state reduction of cytochromes c and a is associated with ab increased reduction of the 830 nm species. In the formate-inhibited system the reduction of a3 on anaerobiosis shows a lag phase, the duration of which corresponds to the time taken for the 830 nm species to be reduced. It is concluded that the e.p.r.-undetectable copper (CuD) is reduced early in the reaction sequence, whereas the detectable copper (CUD) is reduced late. The latter species is probably that responsible for reduction of the cytochrome a3 haem. The magnetic association between undetectable copper and the a3 haem may not imply capability for electron transfer, which occurs more readily between cytochrome a3 and the 830 nm species.     

Pyridine and imidazole reversibly inhibit the respiratory burst in porcine and human neutrophils: evidence for the involvement of cytochrome b558 in the reaction

Heterocyclic nitrogenous bases, such as pyridine and imidazole which bind to heme-iron in cytochromes, inhibited the respiratory burst in intact neutrophils and NADPH-dependent oxygen consumption in lysed cells. Inhibition was accompanied by a spectral change in reduced cytochrome b558 as judged by low-temperature spectroscopy at 77 K. The position and shape of the alpha-band of the cytochrome were significantly altered upon exposure to pyridine or some other bases. Both inhibition and spectral changes were reversible. The results are consistent with the view that cytochrome b558 is involved in the NADPH oxidase system in neutrophils.     

Antimycin-insensitive mutants of Candida utilis II. The effects of antimycin on Cytochrome b.

1. Cytochrome b-562 is more reduced in submitochondrial particles of mutant 28 during the aerobic steady-state respiration with succinate than in particles of the wild type. When anaerobiosis is reached, the reduction of cytochrome b is preceded by a rapid reoxidation in the mutnat. A similar reoxidation is observed in the wild type in the present of low concentrations of antimycin. 2. In contrast to the wild type, inhibition of electron transport in the mutant has a much higher antimycin titre than effects on cytochromes b (viz., aerobic steady-state reduction; reduction in the presence of substrate, cyanide and oxygen; the 'red shift' and lowering of E'-o of cytochrome b-562). Moreover, the titration curve of electron transport is hyperbolic whereas the curves for the reduction are sigmoidal. The conclusion is, that in both mutant and wild type, the actions of antimycin on electron transport and cytochromes b are separable. 3. The red shift in the mutant is more extensive than in the wild type. 4. Cytochrome b-558 and cytochrome b-566 (that absorbs in mutant and wild type at 564.5 nm) do not respond simultaneously to addition of antimycin, indicating that they are two separate cytochromes. 5. The difference between the effect of antimycin on electron transport and cytochromes b reduction is also found in intact cells of the mutant. 6. A model is suggested for the wild-type respiratory chain in which (i) the cytochromes b lie, in an uncoupled system, out of the main electron-transfer chain, (ii) antimycin induces a conformation change in QH-2-cytochrome c reductase resulting in effects on cytochrome b and inhibition of electron transport, (iii) a second antimycin-binding site with low affinity to the antibiotic is present, capable of inhibiting electron transport.     

Mechanism of the superoxide-producing oxidase of neutrophils. O2 is necessary for the fast reduction of cytochrome b-245 by NADPH.

A soluble oxidase from phorbol-stimulated pig neutrophils contained FAD and cytochrome b-245. A typical preparation produced 13.03 mol of superoxide (O2-.) X S-1 X mol of cytochrome b-1 (348 nmol X min-1 X mg of protein-1). In the aerobic steady state, cytochrome b was 8.9% reduced. Steady-state cytochrome b reduction was absent from extracts of unstimulated cells; Km values for NADPH, for O2-. production and cytochrome b reduction were similar. The calculated aerobic rate of cytochrome b reduction was equal to the measured rate of O2-. production in a variety of preparations and in the presence of a range of inhibitors. Under anaerobic conditions the rate was slow: O2 is apparently required for rapid electron flow into the oxidase complex. Cytochrome b is shown to be kinetically competent to act as part of the O2-.-generating complex.