25 research outputs found
Chronic granulomatous disease: the European experience.
CGD is an immunodeficiency caused by deletions or mutations in genes that encode subunits of the leukocyte NADPH oxidase complex. Normally, assembly of the NADPH oxidase complex in phagosomes of certain phagocytic cells leads to a "respiratory burst", essential for the clearance of phagocytosed micro-organisms. CGD patients lack this mechanism, which leads to life-threatening infections and granuloma formation. However, a clear picture of the clinical course of CGD is hampered by its low prevalence (approximately 1:250,000). Therefore, extensive clinical data from 429 European patients were collected and analyzed. Of these patients 351 were males and 78 were females. X-linked (XL) CGD (gp91(phox) deficient) accounted for 67% of the cases, autosomal recessive (AR) inheritance for 33%. AR-CGD was diagnosed later in life, and the mean survival time was significantly better in AR patients (49.6 years) than in XL CGD (37.8 years), suggesting a milder disease course in AR patients. The disease manifested itself most frequently in the lungs (66% of patients), skin (53%), lymph nodes (50%), gastrointestinal tract (48%) and liver (32%). The most frequently cultured micro-organisms per episode were Staphylococcus aureus (30%), Aspergillus spp. (26%), and Salmonella spp. (16%). Surprisingly, Pseudomonas spp. (2%) and Burkholderia cepacia (<1%) were found only sporadically. Lesions induced by inoculation with BCG occurred in 8% of the patients. Only 71% of the patients received antibiotic maintenance therapy, and 53% antifungal prophylaxis. 33% were treated with gamma-interferon. 24 patients (6%) had received a stem cell transplantation. The most prominent reason of death was pneumonia and pulmonary abscess (18/84 cases), septicemia (16/84) and brain abscess (4/84). These data provide further insight in the clinical course of CGD in Europe and hopefully can help to increase awareness and optimize the treatment of these patients
The search for a genetic defect in Polish patients with chronic granulomatous disease
INTRODUCTION: Chronic granulomatous disease (CGD)is a rare inherited disorder in which phagocytic cells are unable to generate superoxide anions.Patients with CGD are predisposed to recurrent bacterial and fungal infections because the superoxide-generating NADPH oxidase activity is needed for efficient killing of microbes.Among the at least 5 subunits cre-ating a functional NADPH oxidase, a molecular defect located in any of the gp91phox, p22phox, p47phox, or p67phox subunits may cause CGD. MATERIAL/METHODS: In this study,8 patients were diagnosed with CGD on the basis of clinical findings and absence of nitroblue tetrazolium reduction in phagocytes. Southern blot analysis, GeneScan, and direct sequencing were performed to define particular DNA mutations. RESULTS: Among 6 X-linked CGD (X-CGD)patients, 4 different mutations were identified in the X-linked CYBB gene (encoding gp91phox)by direct sequencing. A novel missense mutation, located in the NADPH-binding region of gp91phox,was found in 2 brothers. One frameshift 1578delA, one splicing 252G->A mutation, and one partial gene deletion were also identified. The molecular defect in the NCF1 gene (encoding p47phox)was established in 2 patients. One was DeltaGT/DeltaGT homozygote, the other carried, besides this GT deletion on one allele, a unique Phe118stop mutation on the other. CONCLUSIONS: In general, the X-CGD patients within the group followed a more severe clinical course than the patients with an NCF1 defect. However, the lack of a straightforward genotype phenotype correlation indicates that the clinical severity of CGD depends also on other antimicrobial host-defense system
Chronic granutomatous disease caused by mutations other than the common GT deletion in NCF1, the gene encoding the p47(phox) 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 I (NCF1) gene encoding the p47(phox) protein. Most (> 97%) CGD patients without p47(phox) (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 (psi NCF1) 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 psi NCF1 genes) and in six CGD families, patients with one intact NCF1 gene (and five psi NCF1 genes). All patients lacked p47(phox) 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 psi NCF1 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
Distribution of different subtypes of CGD according to sex.
*<p>Female X-linked patients are extremely lyonized heterozygous carrriers.</p
Prevalence of liver abscess and causative micro-organisms.
<p>Prevalence of liver abscess and causative micro-organisms.</p
Different subtypes of autosomal recessive CGD.
<p>Different subtypes of autosomal recessive CGD.</p