Clinical differences in chronic granulomatous disease in patients with cytochrome b-negative or cytochrome b-positive neutrophils

Peripheral T Cell Populations are Differentially Affected in Familial Mediterranean Fever, Chronic Granulomatous Disease, and Gout

Both innate errors of immunity, such as familial Mediterranean fever (FMF) and chronic granulomatous disease (CGD), and the common inflammatory disease gout are characterized by episodes of sterile inflammatory attacks in the absence of an infection. While these disorders encompass distinct pathologies due to differentially affected metabolic pathways and inflammasome activation mechanisms, their common features are the excessive production of interleukin (IL)-1ß and innate immune cell hyperreactivity. On the other hand, the role of T cells and innate-like lymphocytes such as gamma delta (γδ) T cells in these pathologies is ill-defined. In order to widen our understanding of T cell involvement in CGD, FMF and gout pathology, we developed multicolour immunophenotyping panels for flow cytometry to characterize γδ T cells as well as CD4 and CD8 T cell populations in terms of their cytokine production, activation status, memory or naive phenotypes, exhaustion status, homing receptor expression, and cytotoxic activity. Our study is the first deep immunophenotyping analysis of T cell populations in CGD, FMF, and gout patients. We found that CGD affects the frequencies and activation status of T cells, while gout impairs the cytokine production capacity of Vδ2 T cells. FMF was characterized by decreased percentages of regulatory T cells in circulation and attenuated IFN-γ production capacity by Vδ2 T cells. Autoinflammatory syndromes and congenital defects of phagocyte differentially affect T cell compartments. Future studies are warranted to assess whether these phenotypical changes are relevant for disease pathology.

Ozone production by amino acids contributes to killing of bacteria

Reactive oxygen species produced by phagocytosing neutrophils are essential for innate host defense against invading microbes. Previous observations revealed that antibody-catalyzed ozone formation by human neutrophils contributed to the killing of bacteria. In this study, we discovered that 4 amino acids themselves were able to catalyze the production of an oxidant with the chemical signature of ozone from singlet oxygen in the water-oxidation pathway, at comparable level to antibodies. The resultant oxidant with the chemical signature of ozone exhibited significant bactericidal activity in our distinct cell-free system and in human neutrophils. The results also suggest that an oxidant with the chemical signature of ozone produced by neutrophils might potentiate a host defense system, when the host is challenged by high doses of infectious agents. Our findings provide biological insights into the killing of bacteria by neutrophils.

Special article: chronic granulomatous disease in the United Kingdom and Ireland: a comprehensive national patient-based registry

There are no epidemiological studies from the British Isles of chronic granulomatous disease, characterized by recurrent, life-threatening bacterial and fungal infections and inflammatory sequelae. Patients were enrolled in a national registry and medical records were analysed. Of 94 subjects, 69 had X-linked disease, 16 had autosomal recessive disease and nine were unknown. Prevalence was 7.5/million for 1990-99 and 8.5/million for 1980-89. Suppurative adenitis, abscesses and pneumonia presented commonly. Twenty-three of 30 patients who underwent high resolution computerized tomography had chronic respiratory disease. Inflammatory sequelae included bowel stricture and urogenital tract granulomata. Growth failure was common; 75% of those measured were below the population mean. All patients received prophylactic antibiotics and 93% anti-fungal prophylaxis. Interferon gamma was used to treat infection, but rarely as prophylaxis. Despite prophylaxis, estimated survival was 88% at 10 years but 55% at age 30 years. Morbidity remains significant, severe infectious complications common. Curative treatments including stem cell transplantation should be considered for patients with frequent or serious complications.

Hyperinflammation in chronic granulomatous disease and anti-inflammatory role of the phagocyte NADPH oxidase

Chronic granulomatous disease (CGD) is an immunodeficiency caused by the lack of the superoxide-producing phagocyte nicotinamide adenine dinucleotide phosphate (NADPH) oxidase. However, CGD patients not only suffer from recurrent infections, but also present with inflammatory, non-infectious conditions. Among the latter, granulomas figure prominently, which gave the name to the disease, and colitis, which is frequent and leads to a substantial morbidity. In this paper, we systematically review the inflammatory lesions in different organs of CGD patients and compare them to observations in CGD mouse models. In addition to the more classical inflammatory lesions, CGD patients and their relatives have increased frequency of autoimmune diseases, and CGD mice are arthritis-prone. Possible mechanisms involved in CGD hyperinflammation include decreased degradation of phagocytosed material, redox-dependent termination of proinflammatory mediators and/or signaling, as well as redox-dependent cross-talk between phagocytes and lymphocytes (e.g. defective tryptophan catabolism). As a conclusion from this review, we propose the existence of ROS high and ROS low inflammatory responses, which are triggered as a function of the level of reactive oxygen species and have specific characteristics in terms of physiology and pathophysiology.

CD40/CD40L expression in leukocytes from chronic granulomatous disease patients

Chronic granulomatous disease (CGD) is an inherited disorder caused by defects in the NADPH oxidase complex, which generates superoxide, the precursor of hydrogen peroxide (H(2)O(2)) and other reactive oxygen derivatives with microbicidal activity. Because CGD patients are at risk of chronic inflammatory manifestations, including inflammatory bowel disease and autoimmune diseases, and it is not clear whether these pathologies are exclusively secondary to altered superoxide production, or whether distinct immunologic defects are involved, we explored cell proliferation, lymphocyte cell counts, immunoglobulin levels, presence of autoimmune antibodies and expression of costimulatory molecules in leukocytes from CGD patients. We found that CGD patients have a diminished phytohemagglutinin-induced proliferation of blood mononuclear cells. Following stimulation with PMA plus ionomycin, a reduced percentage of CD40L expression in T lymphocytes and a diminished expression of CD40 molecules in neutrophils were observed on leukocytes from these patients. Our results suggest an altered interplay between elements of innate and adaptive immunity in CGD patients, which may be reflected in an increased susceptibility to opportunistic infections.

Chronic granulomatous disease caused by mutations other than the common GT deletion in NCF1, the gene encoding the p47phox component of the phagocyte NADPH oxidase

Chronic granulomatous disease (CGD) is an inherited immunodeficiency caused by defects in any of four genes encoding components of the leukocyte nicotinamide dinucleotide phosphate, reduced (NADPH) oxidase. One of these is the autosomal neutrophil cytosolic factor 1 (NCF1) gene encoding the p47phox protein. Most (>97%) CGD patients without p47phox (A47 degrees CGD) are homozygotes for one particular mutation in NCF1, a GT deletion in exon 2. This is due to recombination events between NCF1 and its two pseudogenes (psiNCF1) that contain this GT deletion. We have previously set up a gene-scan method to establish the ratio of NCF1 genes and pseudogenes. With this method we now found, in three CGD families patients with the normal number of two intact NCF1 genes (and four psiNCF1 genes) and in six CGD families, patients with one intact NCF1 gene (and five psiNCF1 genes). All patients lacked p47phox protein expression. These results indicate that other mutations were present in their NCF1 gene than the GT deletion. To identify these mutations, we designed PCR primers to specifically amplify the cDNA or parts of the genomic DNA from NCF1 but not from the psiNCF1 genes. We found point mutations in NCF1 in eight families. In another family, we found a 2,860-bp deletion starting in intron 2 and ending in intron 5. In six families the patients were compound heterozygotes for the GT deletion and one of these other mutations; in two families the patients had a homozygous missense mutation; and in one family the patient was a compound heterozygote for a splice defect and a nonsense mutation. Family members with either the GT deletion or one of these other mutations were identified as carriers. This knowledge was used in one of the families for prenatal diagnosis.

Chronic granulomatous disease presenting with disseminated intracranial aspergillosis

We describe an 8-year-old boy who presented with multiple unresectable aspergillus brain abscesses as the initial presentation of X-linked chronic granulomatous disease (CGD). He failed initial therapy with amphotericin B, but was subsequently salvaged with voriconazole. CGD should be considered in the differential diagnosis for all children presenting with invasive fungal infections, particularly, those involving the central nervous system (CNS). Whereas, optimal pharmacologic therapy is still unknown for CNS aspergillosis, voriconazole may have an advantage due to its ability to cross the blood brain barrier and excellent oral absorption and bioavailability.

Long-Term Interferon- Therapy for Patients with Chronic Granulomatous Disease

BACKGROUND

Chronic granulomatous disease (CGD) is a rare disorder of phagocytes in which absent production of superoxide and hydrogen peroxide in phagocytes predisposes patients to bacterial and fungal infections. Infections are dramatically reduced by prophylaxis with antibiotics, antifungals, and interferon- gamma (IFN-gamma ).

METHODS

Seventy-six patients with CGD were enrolled in an uncontrolled, open-label follow-up study to assess the long-term clinical safety and efficacy of IFN-gamma therapy. Patients received IFN-gamma subcutaneously 3 times per week.

RESULTS

We observed patients for up to 9 years, for a total observation period of 328.4 patient-years. The incidence of serious infections was 0.30 infections per patient-year; for serious bacterial infections, the incidence was 0.18 cases per patient-year, and for serious fungal infections, it was 0.12 cases per patient-year. Thirty-seven percent of patients reported an adverse event, the most common of which was fever. Twenty-six patients withdrew from the study (3 because of adverse events, 15 because of patient preference, and 8 because of transfer to another trial). There were no life-threatening IFN-gamma-related adverse events and no discernible effects on growth. The overall mortality rate was 1.5% per patient-year.

CONCLUSION

IFN-gamma prophylaxis for CGD appears to be effective and well tolerated over a prolonged period of time.

Retroviral-mediated gene transfer and nonmyeloablative conditioning: studies in a murine X-linked chronic granulomatous disease model

Our laboratory has reported the correction of neutrophil NADPH oxidase function by retroviral-mediated gene transfer (RMGT) in murine X-linked chronic granulomatous disease (X-CGD). Few studies, however, have used nonmyeloablative conditioning in conjunction with RMGT. Promising methods of decreased intensity conditioning include low dose irradiation and antimetabolite conditioning. Preliminary studies using syngeneic mice transplanted with fresh marrow cells indicate that high levels of donor cell chimerism can be achieved with low-dose radiation or 5-fluorouracil-based conditioning regimens. Early data from experiments in which low-dose radiation-conditioned X-CGD recipients were transplanted with retrovirus-transduced X-CGD marrow cells show that gene-corrected neutrophils can be detected by NBT assay for NADPH oxidase activity reconstitution 4 months posttransplant, although these levels are much lower than the 50%-70% gene-corrected cell detected in lethally irradiated recipients. Transplantation of retrovirus-transduced marrow cells into 5-fluorouracil conditioned hosts is also being explored.

A practical approach to neutrophil disorders

This review discusses disorders of altered neutrophil number and function and provide a basic framework for patient evaluation and management. The sections begin with neutropenia, neutrophilia and neutrophil dysfunction with a general screening approach to differentiate common, more benign syndromes from rare, often more serious disorders. Also included is a detailed discussion of some specific primary neutrophil syndromes at the end of each section. Focus is placed on specific disorders that are clinically common or particularly instructive.

Variable correction of host defense following gene transfer and bone marrow transplantation in murine X-linked chronic granulomatous disease

Chronic granulomatous disease (CGD) is an inherited immunodeficiency in which the absence of the phagocyte superoxide-generating nicotinamide adenine dinucleotide phosphate (NADPH) oxidase results in recurrent bacterial and fungal infections. A murine model of X-linked CGD (X-CGD) was used to explore variables influencing reconstitution of host defense following bone marrow transplantation and retroviral-mediated gene transfer. The outcomes of experimental infection with Aspergillus fumigatus, Staphylococcus aureus, or Burkholderia cepacia were compared in wild-type, X-CGD mice, and transplanted X-CGD mice that were chimeric for either wild-type neutrophils or neutrophils with partial correction of NADPH oxidase activity after retroviral-mediated gene transfer. Host defense to these pathogens was improved in X-CGD mice even with correction of a limited number of neutrophils. However, intact protection against bacterial pathogens required relatively greater numbers of oxidant-generating phagocytes compared to protection against A fumigatus. The host response also appeared to be influenced by the relative level of cellular NADPH oxidase activity, particularly for A fumigatus. These results may have implications for developing effective approaches for gene therapy of CGD. (Blood. 2001;97:3738-3745)

Neutrophil disorders and their management

Neutrophil disorders are an uncommon yet important cause of morbidity and mortality in infants and children. This article is an overview of these conditions, with emphasis on clinical recognition, rational investigation, and treatment. A comprehensive list of references is provided for further reading.

Point mutations in the promoter region of the CYBB gene leading to mild chronic granulomatous disease

Chronic granulomatous disease (CGD) is a clinical syndrome of recurrent bacterial and fungal infections caused by a rare disorder of phagocytic cells. In CGD, the phagocytes are unable to generate oxygen radicals after stimulation of these cells, due to a defect in the NADPH oxidase system. This NADPH oxidase is a multicomponent enzyme of at least four subunits, of which the beta-subunit of cytochrome b558, gp91-phox, is encoded by an X-linked gene (called CYBB). We report here five patients from two families; in each family we found a different mutation in the promoter region of CYBB. Both mutations prevented the expression of gp91-phox in the patients' neutrophils and thus caused inability of these cells to generate oxygen radicals. However, the mutations left the gp91-phox expression and the function of the NADPH oxidase in the patients' eosinophils intact. The relatively mild course of the CGD in these patients can probably be attributed to the fact that the eosinophils have retained their oxidative capacity. Furthermore, our results indicate that neutrophils and eosinophils differ in their regulation of gp91-phox expression.

Chronic granulomatous disease. Report on a national registry of 368 patients

A registry of United States residents with chronic granulomatous disease (CGD) was established in 1993 in order to estimate the minimum incidence of this uncommon primary immunodeficiency disease and characterize its epidemiologic and clinical features. To date, 368 patients have been registered; 259 have the X-linked recessive form of CGD, 81 have 1 of the autosomal recessive forms, and in 28 the mode of inheritance is unknown. The minimum estimate of birth rate is between 1/200,000 and 1/250,000 live births for the period 1980-1989. Pneumonia was the most prevalent infection (79% of patients; Aspergillus most prevalent cause), followed by suppurative adenitis (53% of patients; Staphylococcus most prevalent cause), subcutaneous abscess (42% of patients; Staphylococcus most prevalent cause), liver abscess (27% of patients; Staphylococcus most prevalent cause), osteomyelitis (25% of patients; Serratia most prevalent cause), and sepsis (18% of patients; Salmonella most prevalent cause). Fifteen percent of patients had gastric outlet obstruction, 10% urinary tract obstruction, and 17% colitis/enteritis. Ten percent of X-linked recessive kindreds and 3% of autosomal recessive kindreds had family members with lupus. Eighteen percent of patients either were deceased when registered or died after being registered. The most common causes of death were pneumonia and/or sepsis due to Aspergillus (23 patients) or Burkholderia cepacia (12 patients). Patients with the X-linked recessive form of the disease appear to have a more serious clinical phenotype than patients with the autosomal recessive forms of the disease, based on the fact that they are diagnosed significantly earlier (mean, 3.01 years of age versus 7.81 years of age, respectively), have a significantly higher prevalence of perirectal abscess (17% versus 7%), suppurative adenitis (59% versus 32%), bacteremia/fungemia (21% versus 10%), gastric obstruction (19% versus 5%), and urinary tract obstruction (11% versus 3%), and a higher mortality (21.2% versus 8.6%).

Gene therapy for chronic granulomatous disease

Recent progress in the development of gene therapy for chronic granulomatous disease (CGD), an inherited immunodeficiency syndrome, is reviewed. This disorder results from defects in any of the four genes encoding essential subunits of respiratory burst oxidase, the superoxide-generating enzyme complex in phagocytic leukocytes. The absence of respiratory burst oxidants results in recurrent bacterial and fungal infections and can also be complicated by the formation of inflammatory granulomas. Although current management, including prophylactic use of antimicrobial agents and interferon-gamma, has significantly improved its prognosis, CGD continues to be associated with significant morbidity and mortality from life-threatening infections and complications. Allogeneic bone marrow transplantation can provide a life-long cure of the disease, but difficulty in finding suitable donors and risks associated with this procedure have limited its application. Recently CGD has emerged as a promising candidate for gene therapy targeted at the hematopoietic system. CGD mouse models have been developed with gene targeting technology, and preclinical studies in these animals with recombinant retroviral vectors have demonstrated the appearance of functionally normal neutrophils and increased resistance against pathogens such as Aspergillus. Although the murine studies have provided a promise of long-term cure of patients by gene transfer, phase I clinical studies in a limited number of patients with CGD with such vectors have yet to produce a clinically relevant number of corrected neutrophils for extended time periods. Efforts are ongoing to improve gene transfer efficiency into human hematopoietic stem/progenitor cells and to achieve better engraftment of the gene-corrected stem cells.

Clinical and laboratory work-up of patients with neutrophil shortage or dysfunction

Neutrophils have a crucial function in the defense against bacteria and fungi. Indeed, during chronic, severe neutropenia and in case of severe neutrophil dysfunctions, the patients may suffer recurrent and sometimes life-threatening infections. This article describes the clinical symptoms, the theory behind the antimicrobial systems of neutrophils, the methods to diagnose the various aberrations, and the possibilities for treating these patients. A few of the most common causes of neutropenia and neutrophil dysfunctions are described in detail, including recent genetic information regarding the cause of these diseases.

Host defense molecule polymorphisms influence the risk for immune-mediated complications in chronic granulomatous disease

Chronic granulomatous disease (CGD) is an inherited disorder of phagocyte function in which defective superoxide production results in deficient microbicidal activity. CGD patients suffer from recurrent, life-threatening infections, and nearly half develop chronic gastrointestinal (GI) complications (colitis, gastric outlet obstruction, or perirectal abscess) and/or autoimmune/rheumatologic disorders (AIDs). To identify genetic modifiers of disease severity, we studied a cohort of 129 CGD patients, in whom seven candidate genes (myeloperoxidase [MPO], mannose binding lectin [MBL], Fcgamma receptors IIa, IIIa, IIIb, TNF-alpha, and IL-1 receptor antagonist), each containing a physiologically relevant polymorphism predicted to influence the host inflammatory response, were selected for analysis. Genotypes of MPO (P = 0.003) and FcgammaRIIIb (P = 0.007) were strongly associated with an increased risk for GI complications, while an FcgammaRIIa (P = 0.05) genotype was suggestive for an association. Patients with all three associated genotypes had the highest risk for GI complications (P < 0.0001). The risk of AIDs was strongly associated with variant alleles of MBL (P = 0.01) and weakly associated with an FcgammaRIIa genotype (P = 0.04). Patients with variant forms of both MBL and FcgammaRIIa had the highest risk of developing an AID (P = 0.003).

Reconstitution of NADPH oxidase activity in human X-linked chronic granulomatous disease myeloid cells after stable gene transfer using a recombinant adeno-associated virus 2 vector

X-linked chronic granulomatous disease (X-CGD) is an inherited disorder of host defense that results from mutations in the gene encoding gp91phox, the large subunit of the phagocyte NADPH oxidase flavocytochrome b. In this study, we constructed a recombinant adeno-associated virus-2 (AAV) vector in which the constitutively active promoter from the human elongation factor- 1alpha (EF-1alpha) gene drives expression of the murine gp91phox cDNA, and tested its ability to integrate and express in a human X-CGD myeloid cell line. The nitroblue tetrazolium (NBT) test of NADPH oxidase activity was used to screen transduced cells for vector-mediated expression of recombinant gp91phox. Between 2 - 14% of cells were NBT-positive in the first several weeks after transduction. Clones with NBT-positive cells persisting several months after transduction had integrated vector by Southern blot analyses, with high level reconstitution of NADPH oxidase activity. In some clones, oxidase activity persisted for at least 8 to 14 months. In the majority, however, vector-derived RNA transcripts declined, although integrated rAAV genomes persisted. Decreased transgene expression was not directly correlated with methylation of the provirus. This study indicates that rAAV vectors can be successfully used for stable gene transfer, integration, and expression of recombinant gp91phoxin a human myeloid cell line for at least 8 - 14 months in the absence of any selection. The EF-1alpha promotor, however, was subject to silencing in a high percentage of clones with integrated rAAV, suggesting that alternative promotors may be desirable for achieving long-term expression in myeloid cells.

The molecular basis of chronic granulomatous disease

CGD is a rare inherited immunodeficiency syndrome, caused by the phagocytes' inability to produce (sufficient) reactive oxygen metabolites. This dysfunction is due to a defect in the NADPH oxidase, the enzyme responsible for the production of superoxide. It is composed of several subunits, two of which, gp91phox and p22phox, form the membrane-bound cytochrome b558, while its three cytosolic components, p47phox, p67phox and p40phox, have to translocate to the membrane upon activation. This is a tightly and intricately controlled process that involves, among others, several low-molecular weight GTP-binding proteins. Gp91phox is encoded on the X-chromosome and p22phox, p47phox and p67phox on different autosomal chromosomes, and a defect in one of these components leads to CGD. This explains the variable mode of inheritance seen in this syndrome. Clinically CGD manifests itself typically already at a very young age with recurrent and serious infections, most often caused by catalase-positive pathogens. Modern treatment options, including prophylaxis with trimethoprim-sulfamethoxazole and rIFN-gamma as well as early and aggressive anti-infection therapy, have improved the prognosis of this disease dramatically. CGD, as a very well-characterized inherited affection of the hematopoietic stem cells, is predestined to be among the first diseases to profit from the advances in cutting-edge therapeutics, such as gene therapy and in utero stem cell transplantation.

Retroviral-Mediated Gene Transfer of gp91phox Into Bone Marrow Cells Rescues Defect in Host Defense Against Aspergillus fumigatus in Murine X-Linked Chronic Granulomatous Disease

The X-linked form of chronic granulomatous disease (X-CGD), an inherited deficiency of the respiratory burst oxidase, results from mutations in the X-linked gene for gp91phox, the larger subunit of the oxidase cytochrome b. The goal of this study was to evaluate the impact of retroviral-mediated gene transfer of gp91phox on host defense against Aspergillus fumigatus in a murine model of X-CGD. Retrovirus vectors constructed using the murine stem cell virus (MSCV) backbone were used for gene transfer of the gp91phox cDNA into murine X-CGD bone marrow cells. Transduced cells were transplanted into lethally irradiated syngeneic X-CGD mice. After hematologic recovery, superoxide production, as monitored by the nitroblue tetrazolium (NBT) test, was detected in up to ≈80% of peripheral blood neutrophils for at least 28 to 35 weeks after transplantation. Neutrophil expression of recombinant gp91phox and superoxide production were significantly less than wild-type neutrophils. However, 9 of 9 mice with ≈50% to 80% NBT+ neutrophils after gene transfer did not develop lung disease after respiratory challenge with 150 to 500 A fumigatus spores, doses that produced disease in 16 of 16 control X-CGD mice. In X-CGD mice transplanted with mixtures of wild-type and X-CGD bone marrow, ≥5% wild-type neutrophils were required for protection against A fumigatus challenge. These data suggest that expression of even low levels of recombinant gp91phox can substantially improve phagocyte function in X-CGD, although correction of very small percentage of phagocytes may not be sufficient for protection against A fumigatus.

Retroviral-Mediated Gene Transfer of gp91phox Into Bone Marrow Cells Rescues Defect in Host Defense Against Aspergillus fumigatus in Murine X-Linked Chronic Granulomatous Disease

The X-linked form of chronic granulomatous disease (X-CGD), an inherited deficiency of the respiratory burst oxidase, results from mutations in the X-linked gene for gp91phox, the larger subunit of the oxidase cytochrome b. The goal of this study was to evaluate the impact of retroviral-mediated gene transfer of gp91phox on host defense against Aspergillus fumigatus in a murine model of X-CGD. Retrovirus vectors constructed using the murine stem cell virus (MSCV) backbone were used for gene transfer of the gp91phox cDNA into murine X-CGD bone marrow cells. Transduced cells were transplanted into lethally irradiated syngeneic X-CGD mice. After hematologic recovery, superoxide production, as monitored by the nitroblue tetrazolium (NBT) test, was detected in up to ≈80% of peripheral blood neutrophils for at least 28 to 35 weeks after transplantation. Neutrophil expression of recombinant gp91phox and superoxide production were significantly less than wild-type neutrophils. However, 9 of 9 mice with ≈50% to 80% NBT+ neutrophils after gene transfer did not develop lung disease after respiratory challenge with 150 to 500 A fumigatus spores, doses that produced disease in 16 of 16 control X-CGD mice. In X-CGD mice transplanted with mixtures of wild-type and X-CGD bone marrow, ≥5% wild-type neutrophils were required for protection against A fumigatus challenge. These data suggest that expression of even low levels of recombinant gp91phox can substantially improve phagocyte function in X-CGD, although correction of very small percentage of phagocytes may not be sufficient for protection against A fumigatus.

Genotype-dependent variability in flow cytometric evaluation of reduced nicotinamide adenine dinucleotide phosphate oxidase function in patients with chronic granulomatous disease

We studied phagocyte reduced nicotinamide adenine dinucleotide phosphate function to evaluate production of reactive oxygen species in both X-linked and autosomal forms of chronic granulomatous disease. We found a consistent and significant difference between the activated granulocyte response of the X-linked (gp91-phagocyte oxidase) form of chronic granulomatous disease (n = 18) and that of the most common autosomal recessive (p47-phagocyte oxidase) form of the disease (n = 17). The data indicate that mutations in the p47-phagocyte oxidase component of the reduced nicotinamide adenine dinucleotide phosphate oxidase component do not completely prevent oxidation despite severe defects in superoxide generation.

Prevalence, genetics and clinical presentation of chronic granulomatous disease in Sweden

To estimate the prevalence of chronic granulomatous disease (CGD) in Sweden, an inquiry asking for known and possible CGD cases was mailed to paediatric, internal medicine and infectious disease departments all over Sweden. The detected patients were characterized as to genetics and the clinical presentation. Twenty-one patients (belonging to 16 different families) were found, corresponding to a prevalence of approximately 1/450,000 individuals. The patients with X-linked disease, lacking a functional gp91phox protein (n = 12), comprised 57% and 43% of the patients had an autosomal recessive (AR) disease lacking p47phox (n = 7) or p67phox (n = 1), respectively. All unrelated patients with X-linked disease displayed different gene abnormalities such as point mutations predicting nonsense (n = 3), missense (n = 1) or splice site mutations (n = 2), but also a total deletion and a unique 40 base pair duplicature insertion. The patients with p47phox-deficiency showed a GT deletion at a GTGT tandem repeat, and the p67phox-deficient patient displayed a heterozygous in-frame deletion of AAG combined with a large deletion in the other allele. Three patients died during the study period, two from pseudomonas cepacia infections. Patients with X-linked disease had more frequent infections (mean of 1.7 per year), than the patients with AR inheritance (0.5 infections per year). The most common infections were dermal abscesses (n = 111), followed by lymphadenitis (n = 82) and pneumonias (n = 73). Inflammatory bowel disease-like symptoms, mimicking Crohn's disease of the colon, was seen in three CGD patients.

Modification of neutrophil oxidant production with diphenyleneiodonium and its effect on bacterial killing

Diphenyleneiodonium (DPI), an inhibitor of the NADPH oxidase, has been used to distinguish between oxidative and nonoxidative killing of Staphylococcus aureus and Escherichia coli by neutrophils. The rate of killing of S. aureus was inhibited by 77% in the presence of 10 microM DPI, compared to 81% measured under anaerobic conditions. DPI represents a convenient and accessible alternative to an anaerobic environment or using neutrophils from patients with chronic granulomatous disease, for eliminating oxidative killing. The killing of E. coli was also inhibited by DPI. The effect was more apparent at 30 min than at 10 min, suggesting that E. coli can be killed rapidly by nonoxidative mechanisms that become less efficient at later times. DPI was used at concentrations less than 10 microM to determine how this affected production of the three major neutrophil oxidants, superoxide, hydrogen peroxide, and hypochlorous acid, and to determine the effect of partial inhibition of oxidant production on the killing of S. aureus. Unexpectedly, lower concentrations of DPI (0.1-2 microM) inhibited hydrogen peroxide and hypochlorous acid production 10-30% more than they inhibited superoxide production. Correlation of hydrogen peroxide or hypochlorous acid production with the killing of S. aureus showed that up to 30% inhibition had no effect on the rate of killing, implying that agents that impair neutrophil oxidant production less than this will not compromise bacterial killing. Higher inhibition of oxidant production led to a linear decline in the rate of killing.

The genetic basis of chronic granulomatous disease

Chronic granulomatous disease is a serious clinical entity. The disease is caused by the failure of NADPH oxidase in phagocytic leukocytes to generate superoxide, needed for the killing of micro-organisms. The patients need careful management aimed at prevention and aggressive treatment of infections. CGD is a heterogeneous syndrome, both clinically and genetically. This disease is caused by a diversity of mutations, and multiple genes are affected. In fact, in the A22 and X91 subtypes of CGD, in which the alpha subunit and the beta subunit of cytochrome b558 are affected, respectively, the mutations are virtually unique for each CGD family tested. The results of these studies provide a better understanding of the mechanism of action of the various components of the superoxide-generating enzyme. Although treatment of CGD patients has improved considerably over the past 30 years, death caused by overwhelming infections is still a serious threat. Prenatal diagnosis now provides the relatives of a CGD patient with the possibility to choose for first-trimester abortion of an affected fetus. Moreover, genetic correction of the disease is now a goal within reach.

A 40-base-pair duplication in the gp91-phox gene leading to X-linked chronic granulomatous disease

Chronic granulomatous disease (CGD) is characterized by the inability of the patients' phagocytic leukocytes to generate superoxide. Therefore, these cells fail to kill certain bacteria and fungi. As a result, patients with CGD suffer from recurrent, life-threatening infections with these micro-organisms. Superoxide is produced by NADPH oxidase, a multicomponent enzyme exclusively present in phagocytic leukocytes. The most common form of CGD is X-linked, originating from a deficiency of the high-molecular-weight subunit of cytochrome b558 (gp91-phox). Here we describe a patient suffering from X-linked CGD due to a 40-base-pair duplication in exon 7 of the CYBB gene coding for gp91-phox, predicting a frameshift, substitution of 22 amino acids and a premature stop codon at amino-acid position 253. The mother as well as the grandmother of this patient were proven to be heterozygous for this mutation; the father and sister were normal. However, the great-grandmother proved to have normal oxidative functions, suggesting that the mutation occurred three generations ago. This is the first description of a nucleotide duplication leading to CGD.

Autosomal recessive chronic granulomatous disease associated with 18q-syndrome and end-stage renal failure due to Henoch-Schönlein nephritis

Chronic granulomatous disease (CGD) is an inherited disorder in which phagocytes, including polymorphonuclear neutrophils, are unable to generate oxygen-derived microbicidal compounds, among them superoxide. Two main types of CGD are known, an X-linked form which is normally associated with the absence of cytochrome b558, a component of the membrane-associated reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase which generates superoxide and an autosomal recessive form, in which cytochrome b558 is present, caused by the deficiency of a cytosolic factor required to activate NADPH oxidase. Patients with the X-linked type are highly susceptible to infections; those with the autosomal recessive form may be less severely affected. We report the unusual association of autosomal CGD with 18q--syndrome in a girl who developed terminal renal insufficiency caused by Henoch-Schönlein nephritis, and speculate on the possibility that the gene defect of autosomal recessive CGD may be located on chromosome 18.

Prognosis of chronic granulomatous disease

The records of 28 patients with chronic granulomatous disease born over a 32 year period were reviewed. The characteristics of the group, and the frequency with which various clinical and laboratory features had been recorded, was assessed. Nine patients were known to have died, in most cases of progressive suppurative infection. Actuarial analysis showed 50% survival through the third decade of life. The long term survival of patients developing symptoms after the end of the first year of life was significantly better than that of patients whose illness started in infancy. Our data confirm that the severity of chronic granulomatous disease is not uniform, and that the prognosis for long term survival is better than that suggested in earlier reports. Early onset may be a poor prognostic sign and invasive aspergillosis is a life threatening complication. In the absence of curative treatment, trials to assess the effectiveness of interferon gamma are necessary and early antenatal diagnosis should be offered to as many affected families as possible.

Chronic granulomatous disease of childhood: clinical, pathological, biochemical, molecular, and genetic aspects of the disease

The pathobiology of chronic granulomatous disease (CGD) of childhood, a heterogeneous phenotypic disorder characterized by chronic and recurrent infection, has become more completely understood over the past three decades. Blood neutrophils, monocytes, and eosinophils lack a respiratory burst required for effective killing of catalase positive bacteria by reduced by-products of oxygen. The disease is transmitted in at least two genetic forms: X-linked and autosomal recessive. In the X-linked form, a gene coding for a beta subunit protein required for cytochrome b presence on the plasma membrane of phagocytic cells is not expressed. The protein appears to be a constituent of the cytochrome b complex that requires an additional alpha subunit for complete expression. Cytochrome b is likely a component of leukocyte oxidase, which catalyzes the respiratory burst. The autosomal recessive form of the disorder appears to be controlled by a set of genes coding for soluble cofactors essential for oxidase expression. One or more of these cofactors have recently been shown to be deficient in several patients with autosomal recessive CGD. Optional therapy for CGD patients is presently not available. Long-term use of antibiotics may be helpful. The cloned product interferon gamma has been reported to improve superoxide generation, bactericidal activity, and immunoreactive cytochrome b in some CGD neutrophils and monocytes, both in vitro and in vivo. Currently a prospective clinical evaluation of the efficacy of interferon gamma is in progress. Molecular studies of expression and function of the X-CGD gene in phagocytic cells are in progress as well.

Incidence, severity, and prevention of infections in chronic granulomatous disease

We retrospectively analyzed the frequency and nature of infections occurring in 48 patients with chronic granulomatous disease. The long-term use of trimethoprim-sulfamethoxazole and ketoconazole as a preventive therapy for infections has also been evaluated. Lymphadenitis, lung infections, dermatitis, enteral infections, and hepatic abscesses were the most frequent infections. Staphylococcus aureus, Salmonella, and Aspergillus were the main microorganisms encountered. Twelve patients died: five from lung aspergillosis, three from hepatic abscesses, two from pneumonopathy of unknown origin, one from salmonellosis, and one from another probable infection that could not be proved. The actuarial survival rate was 50% at 10 years of age, with a prolonged plateau thereafter. There was no difference in survival rates between patients with X-linked and those with autosomal recessive chronic granulomatous disease. The 8-year actuarial survival rate was significantly higher for patients born in 1978 or afterward than for patients born before 1978 (92.9% vs 70.5%). A retrospective analysis of the occurrence of bacterial and fungal infections in patients who received trimethoprim-sulfamethoxazole and ketoconazole as infection prophylaxis indicated that the former was effective against bacterial infections but that ketoconazole provided no protection against Aspergillus infections.