1998
DOI: 10.1038/32703
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Human β-tryptase is a ring-like tetramer with active sites facing a central pore

Abstract: Human tryptase, a mast-cell-specific serine proteinase that may be involved in causing asthma and other allergic and inflammatory disorders, is unique in two respects: it is enzymatically active only as a heparin-stabilized tetramer, and it is resistant to all known endogenous proteinase inhibitors. The 3-A crystal structure of human beta-tryptase in a complex with 4-amidinophenyl pyruvic acid shows four quasi-equivalent monomers arranged in a square flat ring of pseudo 222 symmetry. Each monomer contacts its … Show more

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Cited by 288 publications
(296 citation statements)
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“…The MT-SP1 polypeptide fold deviates notably from that of the serine proteinase tryptase, however, which exhibits six novel surface loops through which the tryptase monomers form the intermolecular interactions that stabilize the unusual tetramer structure (31). Thus, MT-SP1 is not closely related to tryptase, and the name "matriptase" is therefore potentially confusing.…”
Section: Discussionmentioning
confidence: 98%
“…The MT-SP1 polypeptide fold deviates notably from that of the serine proteinase tryptase, however, which exhibits six novel surface loops through which the tryptase monomers form the intermolecular interactions that stabilize the unusual tetramer structure (31). Thus, MT-SP1 is not closely related to tryptase, and the name "matriptase" is therefore potentially confusing.…”
Section: Discussionmentioning
confidence: 98%
“…Propeptide sequence and the carboxyl-terminal 11 residues were excluded from the model. Coordinates of the crystal-derived threedimensional structure of human ␤II-tryptase (Protein Data Bank number 1AOL) (17), which is pancreasin's closest relative for which diffraction data are available, served as template for the model, which was optimized by idealizing bond geometry and removing unfavorable contacts.…”
Section: Methodsmentioning
confidence: 99%
“…Within the mast cell granules, tryptase is found associated with heparin proteoglycan that serves to stabilize the enzyme and regulate its biological function upon release (Schwartz & Bradford, 1986). This 134 kDa tetrameric serine protease adopts a square¯at ring structure composed of four monomers, whose active sites face a central pore (Pereira et al, 1998), and consequently restrict access to potential macromolecular substrates and proteinase inhibitors. Nevertheless, tryptase has profound actions on cells, such as causing cytokine release from epithelial and endothelial cells (Cairns & Walls, 1996;Compton et al, 1998), proliferation of ®broblasts, epithelial and smooth muscle cells (Brown et al, 1995;Cairns & Walls, 1996;Ruoss et al, 1991), and ®broblast collagen synthesis (Cairns & Walls, 1997).…”
Section: Introductionmentioning
confidence: 99%