Characterization of Human γ-Tryptases, Novel Members of the Chromosome 16p Mast Cell Tryptase and Prostasin Gene Families

Abstract

Previously, this laboratory identified clusters of α-, β-, and mast cell protease-7-like tryptase genes on human chromosome 16p13.3. The present work characterizes adjacent genes encoding novel serine proteases, termed γ-tryptases, and generates a refined map of the multitryptase locus. Each γ gene lies between an α1H Ca2+ channel gene (CACNA1H) and a βII- or βIII-tryptase gene and is ∼30 kb from polymorphic minisatellite MS205. The tryptase locus also contains at least four tryptase-like pseudogenes, including mastin, a gene expressed in dogs but not in humans. Genomic DNA blotting results suggest that γI- and γII-tryptases are alleles at the same site. βII- and βIII-tryptases appear to be alleles at a neighboring site, and αII- and βI-tryptases appear to be alleles at a third site. γ-Tryptases are transcribed in lung, intestine, and in several other tissues and in a mast cell line (HMC-1) that also expresses γ-tryptase protein. Immunohistochemical analysis suggests that γ-tryptase is expressed by airway mast cells. γ-Tryptase catalytic domains are ∼48% identical with those of known mast cell tryptases and possess mouse homologues. We predict that γ-tryptases are glycosylated oligomers with tryptic substrate specificity and a distinct mode of activation. A feature not found in described tryptases is a C-terminal hydrophobic domain, which may be a membrane anchor. Although the catalytic domains contain tryptase-like features, the hydrophobic segment and intron-exon organization are more closely related to another recently described protease, prostasin. In summary, this work describes γ-tryptases, which are novel members of chromosome 16p tryptase/prostasin gene families. Their unique features suggest possibly novel functions.