Genomic organization of the Btk gene and exon scanning for mutations in patients with X-linked agammaglobulinemia

The defective gene responsible for the recessively inheritedimmunodeficiency X-linked agammaglobulinemia (XLA) has beenshown to encode a cytoplasmic protein tyrosine kinase of theSrc family designated Btk (Bruton's tyrosine kinase). To facilitatethe search for germline mutations of the Btk gene, we have characterizedits genomic structure. Eighteen introns were positioned withinthe approximately 37 kb gene. Each of the exon/intron boundarieswere defined and sequenced, and all but two conform to consensussequences. We have utilized the genomic organization of Btkand the intervening sequence data to design an assay for amplifyingeach of the 19 exons from XLA patient DNA for single strandconformation polymorphism (SSCP) analysis. By using this methodwe have identified mutations in 12 of 14 unrelated affectedmales: seven different base substitutions and two small deletions.Two of the mutations described in exon 15 of the kinase domainwere found in more than one patient and may represent a mutationhot spot. Exon scanning has proven to be a valuable method foridentifying the patient mutations in genomic DNA without theuse of cDNA. The mutations are easily confirmed with directsequencing of the amplified exons. This approach will greatlybenefit XLA family studies involving carrier detection and prenataldiagnosis. In addition, the mutations identified may revealresidues involved in the specific protein interactions necessaryin the B-cell developmental pathway, of which Btk is an integralcomponent.