A propeptide-independent protease from Tannerella sp.6_1_58FAA_CT1 displays trypsin-like specificity

Abstract

Despite the absence of any homologs of Tannerella forsythia KLIKK proteases in Tannerella sp.6_1_58FAA_CT1, the strain possesses a putative cysteine protease (G9S4N1) closely related to RgpB of Porphyromonas gingivalis. G9S4N1 lacks obvious propeptide that behaves as inhibitor of proteases and was proven to be a propeptide-independent protease. Unlike RgpB, which exclusively cleaves ArgXaa bonds, G9S4N1 exhibits both arginine- and citrulline-specific activities. Mutations of Asp177, a potential P1-Arg binding site, to uncharged or positively charged residues did not alter the substrate specificity of G9S4N1 significantly. Moreover, a group of arginine-specific proteases from different species including porcine trypsin, bovine thrombin, and a trypsin-like serine protease of dengue 2 virus CF40-Gly-NS3pro185 also display different specificity toward citrulline residue, suggesting that citrulline-modified protein might have different roles and destiny in biological processes involving various proteases.

Keywords: Citrulline; Propeptide; Protease; Tannerella; Trypsin-like.