Abstract

We investigated the potential of human mast cell tryptase to induce relaxation of rat aorta. Trypsin and the selective PAR2-activating peptide (PAR2-AP) SLIGRL-NH2 stimulated robust relaxation of phenylephrine-precontracted rat aortic rings. However, human lung tryptase (1-100 nM) either in the presence or absence of heparin failed to induce any significant relaxation. Notwithstanding, incubation of the aorta with tryptase (100 nM), following the addition of a peptide corresponding to the cleavage/activation sequence of rat PAR2 (rPAR2), resulted in relaxation of precontracted tissue due to the proteolytic release of the PAR2-AP SLIGRL/ from the parent peptide. Thus, tryptase was enzymatically active in the bioassay system. Preincubation of aorta with neuraminidase to remove cell-surface sialic acid unmasked the ability of tryptase to induce relaxation of the aorta, but had no effect on relaxation induced by trypsin, SLIGRL-NH2, or acetylcholine (Ach). Like trypsin and SLIGRL-NH2, the tryptase-induced relaxation was inhibited by either removal of the endothelium or pretreatment of the tissue with NG-nitro-L-arginine methyl ester (L-NAME), suggesting an endothelium-derived nitric oxide mechanism. Interestingly, tryptase in the presence of heparin failed to induce relaxation of precontracted neuraminidase-treated rat aorta. We conclude that tryptase-induced relaxation of rat aorta, most likely via PAR2, is tightly regulated by heparin and cell-surface sialic acid.

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