Uncommon missense and splice mutations and resulting biochemical phenotypes in German patients with X-linked chronic granulomatous disease

Chronic granulomatous disease is an inherited disease characterized by the inability of phagocytes to generate normal amounts of superoxide, leaving patients susceptible to opportunistic, life-threatening infections. In the majority of cases, cytochrome b 558 is absent in the X-chromosomal form of C...

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Bibliographic Details
Published in:Experimental hematology 1999-03, Vol.27 (3), p.505-511
Main Authors: Roesler, Joachim, Heyden, Stefan, Burdelski, Martin, Schäfer, Hansjorg, Kreth, Hans-Walter, Lehmann, Romy, Paul, Diana, Marzahn, Jenny, Gahr, Manfred, Rösen-Wolff, Angela
Format: Article
Language:English
Subjects:
Adolescent
Adult
Amino Acid Substitution
Binding Sites
Child
Child, Preschool
Cytochrome b Group - deficiency
Cytochrome b Group - genetics
Dosage Compensation, Genetic
Female
Gene Frequency
Genetic Heterogeneity
Genotype
Germany
Granulomatous Disease, Chronic - genetics
Humans
Hydrogen Peroxide - metabolism
Macromolecular Substances
Male
Membrane Glycoproteins - deficiency
Membrane Glycoproteins - genetics
Middle Aged
NADP - metabolism
NADPH Oxidase 2
NADPH Oxidases - deficiency
NADPH Oxidases - genetics
Phenotype
Point Mutation
Reactive Oxygen Species
RNA Splicing
RNA, Messenger - biosynthesis
RNA, Messenger - genetics
Superoxides - metabolism
Variant chronic granulomatous disease—Dihydrorhodamine 123—Missense mutation—Splice mutation—Symptoms
X Chromosome - genetics
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Summary:Chronic granulomatous disease is an inherited disease characterized by the inability of phagocytes to generate normal amounts of superoxide, leaving patients susceptible to opportunistic, life-threatening infections. In the majority of cases, cytochrome b 558 is absent in the X-chromosomal form of CGD. However, the neutrophils from six of nine X-linked CGD patients, reported here, expressed normal or decreased amounts of this cytochrome and are referred to as “variant” forms. In three of these six variant patients, a roughly proportional decrease in cytochrome b 558 expression and production of H 2O 2 were found. In two cases this phenotype could be well explained by special splice mutations, whereas in the third case it was caused by a missense mutation, predicting Ser 193 → Phe. In the other three variant patients, cytochrome b 558 expression and H 2O 2 production were clearly disproportionate as the generation of H 2O 2 was much more decreased than cytochrome expression. Missense mutations also were found in these cases. One of these mutations, predicting Leu 546 → Pro and affecting the putative nicotinamide adenine dinucleotide phosphate binding site, led to normal levels of cytochrome b 558 expression and reduced H 2O 2 production. In the other two mutations, predicting Pro 339 → His and His 338 → Tyr, the putative flavin adenine dinucleotide binding site was affected. This could explain the corresponding uncommon phenotypes, characterized by zero or trace amounts of H 2O 2 production and the expression of relatively high amounts of nonfunctional or low functional cytochrome b 558, respectively. The only missense mutation found that prevented the expression of any cytochrome b 558 was caused by a predicted His 222 → Arg exchange in one of the three classic cases. The two other classic phenotypes were caused by splice mutations.
ISSN:0301-472X
1873-2399
DOI:10.1016/S0301-472X(98)00024-1