Purified cytochrome b from human granulocyte plasma membrane is comprised of two polypeptides with relative molecular weights of 91,000 and 22,000

Partial correction of the phagocyte defect in patients with X-linked chronic granulomatous disease by subcutaneous interferon gamma

Chronic granulomatous disease, a disorder of host defense, is characterized by an impairment in the killing of microbes that results from a defect in the production of superoxide anion by phagocytes. We examined the efficacy of interferon gamma, a physiologic activator of phagocytic-cell function, in the treatment of the disease. Two subcutaneous injections of recombinant interferon gamma (0.1 mg per square meter of body-surface area per dose) were administered on consecutive days to four patients with the X-linked form of the disease. Treatment resulted in 5- to 10-fold increases in superoxide production by granulocytes and monocytes; the improvement was sustained for more than two weeks. Granulocyte bactericidal activity rose proportionally. In the two most responsive patients, both phagocytic functions reached the normal range of activity. In association with these functional changes, we observed an increase in cellular contents of phagocyte cytochrome b (a critical component of the superoxide-producing oxidase) and immunoreactive cytochrome b heavy chain (the product of the gene that is defective in X-linked chronic granulomatous disease). Levels of cytochrome b detected by spectrophotometry rose from near zero to 10 to 50 percent of normal values. This study demonstrates partial correction of the cellular defects in chronic granulomatous disease by interferon gamma and provides a basis for clinical trials of the agent.

Immunological properties of O2.- generating oxidase from bovine neutrophils

Two antisera have been prepared against the O2.- generating oxidase purified from bovine polymorphonuclear neutrophils (PMNs). The first antiserum was directed against the enzymatically active fraction obtained after isoelectric focusing (pI oxidase), which consisted of a major protein of Mr 65,000 [(1985) Biochemistry 24, 7231-7239]. The second antiserum was directed against the 65 kDa band excised from an SDS-polyacrylamide gel after electrophoresis of the pI oxidase preparation. The pI oxidase antiserum inhibited O2.- generation by PMN cells, PMN membranes and detergent-solubilized membranes. The 65 kDa band antiserum was virtually non-inhibitory against PMN cells; in contrast, it was nearly as potent as the pI oxidase antiserum on PMN membranes and detergent-solubilized membranes. Inhibition of O2.- generation by the pI oxidase antiserum was correlated with the immunoreactivity of four membrane-bound proteins of 65, 54, 18 and 16 kDa; the 65 kDa band antiserum reacted only with the two proteins of 65 and 54 kDa. It is concluded that the 18 and 16 kDa proteins, present in trace amounts in the pI oxidase preparation, are probably potent catalysts of the respiratory burst.

Induction of phagocyte cytochrome b heavy chain gene expression by interferon gamma

Phagocytic cells, such as macrophages and polymorphonuclear leukocytes, produce a "respiratory burst" in which oxygen is reduced to superoxide and other active oxygen species responsible for many of the microbicidal, tumoricidal, and inflammatory activities of these cells. Interferon gamma has been shown to augment phagocyte superoxide production, but the molecular mechanisms underlying this effect have remained unknown. Recently a key component of the oxidase, phagocyte cytochrome b, has been characterized as a heterodimer of a 91-kDa glycoprotein and a 22-kDa polypeptide. The present studies examined the effects of human recombinant interferon gamma on the expression of the genes for these components of the cytochrome b. In vitro treatment with interferon gamma substantially increases the level of phagocyte cytochrome b heavy chain gene transcripts in normal polymorphonuclear leukocytes, normal monocyte-derived macrophages, and the monocytic leukemia cell line THP-1. Light chain gene transcripts are less affected. In monocyte-derived macrophages and THP-1 cells, the enhanced expression of the heavy chain gene appears in large part attributable to increased rates of transcription. Treatment of monocyte-derived macrophages with human recombinant interferon alpha (a down-regulator of the respiratory burst) decreased the heavy chain transcript levels; interferon beta produced no detectable change. These findings demonstrate the responsiveness of one essential component of the phagocyte oxidase system to activation by interferon gamma and provide a rationale for its use to augment phagocytic function in chronic granulomatous disease.

Expression of the X-CGD gene during induced differentiation of myeloid leukemia cell line HL-60

The expression of the X-CGD gene, which encodes the heavy-chain subunit of the phagocyte cytochrome b, was studied during induced myeloid differentiation of HL-60 cells. Incubation of the cells with a combined regimen of retinoic acid and dimethyl formamide resulted in granulocytic morphological differentiation and acquisition of nitroblue tetrazolium reduction, a measure of superoxide generation. During the 5-day course of induced differentiation, the levels of X-CGD mRNA transcripts rose 13-fold, with a 2-fold increase detectable within 3 h of exposure to retinoic acid. Relative transcription rates for the X-CGD gene, determined by nuclear runoff, increased two- to eightfold after 24 to 72 h of induced differentiation. However, the greater change in X-CGD mRNA levels than that in transcription rates implies the involvement of posttranscriptional regulation as well. Fractionation by centrifugal elutriation into phases of the cell cycle showed expression of X-CGD transcripts predominantly in G1 cells before induction and in all phases of the cell cycle 24 h after induction. Thus the rapid increase in X-CGD expression in induced cells reflects the acquisition of functional competence and not the concomitant cessation of proliferation or shift in cell cycle distribution.

Phosphorylation of the subunits of cytochrome b-245 upon triggering of the respiratory burst of human neutrophils and macrophages

Cytochrome b-245, the only clearly identified component of the microbicidal oxidase system of phagocytes, is a heterodimer consisting of a 23 kDa (alpha) and a 76-92 kDa (beta) subunit. This study was conducted to examine whether, in common with a number of proteins, the subunits of the cytochrome were phosphorylated upon activation of the oxidase. Both subunits were phosphorylated after activation of neutrophils or macrophages with phorbol myristate acetate or a phagocytic stimulus, although the time course of this process did not parallel that of the oxidase. Phosphorylation of these proteins was normal in cells from two patients with autosomal recessive chronic granulomatous disease, in whom phosphorylation of a 47 kDa protein is defective.

Primary structure and unique expression of the 22-kilodalton light chain of human neutrophil cytochrome b

Cytochrome b comprising 91-kDa and 22-kDa subunits is a critical component of the membrane-bound oxidase of phagocytes that generates superoxide. This important microbicidal system is impaired in inherited disorders known as chronic granulomatous disease (CGD). Previously we determined the sequence of the larger subunit from the cDNA of the CGD gene, the X chromosome locus affected in "X-linked" CGD. To complete the primary structure of the cytochrome b and to assess expression of the smaller subunit, we isolated cDNA clones for the 22-kDa polypeptide by immunoscreening and confirmed their authenticity by direct N-terminal protein sequencing. Although the deduced amino acid sequence of the 22-kDa subunit is not overtly similar to other known cytochromes, we observed a 31-amino acid stretch of 39% identity with polypeptide I of mitochondrial cytochrome c oxidase centered on a potential heme-coordinating histidine. Similarities in the hydropathy profiles and spacing of histidines of the 22-kDa protein and myoglobin suggest structural motifs in common with other heme-containing proteins that are not readily revealed by primary amino acid sequences. Although RNA for the larger subunit has been found only in cells of the phagocytic lineage, stable RNA encoding the 22-kDa subunit was observed in all cell types. However, the stable 22-kDa protein was detected only in phagocytic cells that were expressing the larger subunit RNA. This observation suggests that the large subunit may play a role in regulating the assembly of the heterodimeric cytochrome b.

The quaternary structure of the plasma membrane b-type cytochrome of human granulocytes

Hydrodynamic, crosslinking and immunoprecipitation studies were performed on detergent solubilized cytochrome b to demonstrate that the two copurifying polypeptides of molecular weight 91,000 (glycosylated) and 22,000 [1,2] formed a molecular complex. The hydrodynamic studies indicated that the cytochrome b/detergent complex had a sedimentation coefficient, partial specific volume and Stokes radius of 5.25 S, 0.82 cm3/g and 6.2 nm in Triton X-100 and 6.05 S, 0.80 cm3/g and 5.6 nm in octylglucoside, respectively. These studies also indicated that the detergent-protein complex has a molecular mass of 202 and 188 kDa in Triton X-100 and octylglucoside, respectively, is asymmetric in shape with a frictional coefficient of 1.3-1.4 and binds significant amounts of detergent. The molecular mass of the protein portion of the detergent-cytochrome complex was estimated to be between 100 and 127 kDa. Crosslinking studies with disuccinimidyl suberate and alkaline cleavable bis[2-(succinimidooxy-carbonyloxy)ethyl]sulfone revealed that the Mr = 91,000 and Mr = 22,000 components of purified cytochrome b are closely associated and can be covalently bound to form a polypeptide which, by SDS-polyacrylamide gel electrophoresis, has Mr values of 110,000-120,000 and 120,000-135,000 on 8% and 11% (w/v) SDS-polyacrylamide gels, respectively. Cleavage of the crosslinked species resulted in the reappearance of the Mr = 91,000 and Mr = 22,000 species. Sedimentation profiles of crosslinked cytochrome b in linear sucrose density gradients made up in H2O were identical to those of non-crosslinked controls. A close association of the two protein species was further confirmed by the ability of antibody specific for the smaller subunit to immunoprecipitate the larger one also. Experiments aimed at identifying the heme-carrying subunit(s) were inconclusive, since dissociation of the complex resulted in loss of cytochrome b spectrum. These results, in combination with our SDS-polyacrylamide gel electrophoresis molecular-weight estimates, provide strong evidence for the cytochrome b being an alpha-beta-type heterodimer composed of a glycosylated Mr = 91,000 and non-glycosylated Mr = 22,000 polypeptide.

Chronic granulomatous disease--pieces of a cellular and molecular puzzle

Chronic granulomatous disease (CGD) is an inherited disorder in which phagocytes are unable to manufacture microbicidal oxidants. The disorder may be classified into subtypes depending upon the mode of transmission (X-linked or autosomal recessive) and the presence or absence of a heme protein designated 'cytochrome b558' (see below). Patients with CGD suffer recurrent deep-seated bacterial infections that respond poorly to therapy, slowly destroy affected tissues and eventually claim the patients' lives. Clinical deterioration is slowed, though not stopped, by the current practice of placing CGD patients on prophylactic antibiotics. Microbicidal oxidant production fails in CGD because of a defect in the enzyme responsible for the production of superoxide (O2-), the single precursor from which all the microbicidal oxidants ultimately arise. This enzyme, the respiratory burst oxidase, is a membrane-bound oxidase that catalyses the one-electron reduction of oxygen to O2- at the expense of NADPH. The oxidase is dormant in resting phagocytes, but comes to life when the phagocytes are exposed to bacteria or other appropriate stimuli. Components related to the respiratory burst oxidase include cytochrome b558 (one of those subunits has recently been shown to be encoded by a gene that is defective in the most common form of CGD), a flavoprotein that participates directly in O2- production, a cytosolic factor needed for the activation of the oxidase, and a group of 48K phosphoproteins. How these components relate to each other and to the O2- -forming activity of the oxidase is currently under active investigation.

Purification of cytochrome b558 from bovine polymorphonuclear neutrophils

A 110 fold purification of cytochrome b558 from resting bovine neutrophils has been achieved. The plasma membrane bound cytochrome b was extracted with aminoxide WS35, a non ionic detergent. The purification procedure included liquid column chromatography on CM-C50 Sephadex, chromatofocusing on the anion exchanger PBE94, and gel filtration on P30 Biogel. The purified preparation was characterized by an heme to protein (nmol/mg) ratio of 7.7. The isoelectric point of cytochrome b was at pH 6.5. Upon polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate three bands corresponding to apparent Mr 64,000, 56,000 and 20,000 were revealed by staining with Coomassie Blue.

Recombinant interferon gamma augments phagocyte superoxide production and X-chronic granulomatous disease gene expression in X-linked variant chronic granulomatous disease

We examined the potential of interferon gamma (IFN-gamma) to ameliorate the physiologic defect of chronic granulomatous disease (CGD) by studying its effects on CGD phagocyte superoxide generation, NADPH oxidase kinetics, cytochrome b559 content, and expression of X-CGD (the gene for the X-linked disease). Granulocytes and macrophages from three patients in two kindreds with "variant" X-linked CGD (i.e., with very low, but detectable, baseline superoxide-generating activity) responded to IFN-gamma with enhanced nitroblue tetrazolium reduction and two- to eightfold increases in superoxide generation. IFN-gamma did not augment the respiratory burst activity of phagocytes from patients with "classic" CGD (i.e., no detectable baseline superoxide generation) or autosomal variant CGD. Incubation of a responding patient's granulocytes with IFN-gamma nearly doubled the maximal velocity for the NADPH oxidase, but did not change its abnormal Michaelis constant. Although the interferon-treated CGD granulocytes produced superoxide at a rate 40% of normal, the cytochrome b spectrum remained undetectable. IFN-gamma treatment of cultured monocytes from an IFN-gamma-responsive CGD patient increased the steady state level of RNA transcripts from the X-CGD gene from barely detectable up to approximately 5% of normal.