Alternate mRNA splicing in multiple human tryptase genes is predicted to regulate tetramer formation.

Article Details


Jackson NE, Wang HW, Bryant KJ, McNeil HP, Husain A, Liu K, Tedla N, Thomas PS, King GC, Hettiaratchi A, Cairns J, Hunt JE

Alternate mRNA splicing in multiple human tryptase genes is predicted to regulate tetramer formation.

J Biol Chem. 2008 Dec 5;283(49):34178-87. doi: 10.1074/jbc.M807553200. Epub 2008 Oct 14.

PubMed ID
18854315 [ View in PubMed

Tryptases are serine proteases that are thought to be uniquely and proteolytically active as tetramers. Crystallographic studies reveal that the active tetramer is a flat ring structure composed of four monomers, with their active sites arranged around a narrow central pore. This model explains why many of the preferred substrates of tryptase are short peptides; however, it does not explain how tryptase cleaves large protein substrates such as fibronectin, although a number of studies have reported in vitro mechanisms for generating active monomers that could digest larger substrates. Here we suggest that alternate mRNA splicing of human tryptase genes generates active tryptase monomers (or dimers). We have identified a conserved pattern of alternate splicing in four tryptase alleles (alphaII, betaI, betaIII, and deltaI), representing three distinct tryptase gene loci. When compared with their full-length counterparts, the splice variants use an alternate acceptor site within exon 4. This results in the deletion of 27 nucleotides within the central coding sequence and 9 amino acids from the translated protein product. Although modeling suggests that the deletion can be easily accommodated by the enzymes structurally, it is predicted to alter the specificity by enlarging the S1' or S2' binding pocket and results in the complete loss of the "47 loop," reported to be critical for the formation of tetramers. Although active monomers can be generated in vitro using a range of artificial conditions, we suggest that alternate splicing is the in vivo mechanism used to generate active tryptase that can cleave large protein substrates.

DrugBank Data that Cites this Article

NameUniProt ID
Tryptase alpha/beta-1Q15661Details