The lipopolysaccharide (LPS)-triggered coagulation cascade in horseshoe crabs is composed of three zymogens belonging to the trypsinogen family: prochelicerase C, prochelicerase B (proB) and the proclotting enzyme (proCE). Trypsinogen-family members contain three conserved disulphides located around the active site. While it is known that proB evolutionarily lost one of the disulphides, the His-loop disulphide, the roles of the missing His-loop disulphide in proB remain unknown. Here, we prepared a proB mutant, named proB-murasame, equipped with a regenerated His-loop disulphide. The activation rate by upstream α-chelicerase C for proB-murasame was indistinguishable from that for wild-type (WT) proB. The resulting protease chelicerase B-murasame exhibited an 8-fold higher kcat value for downstream proCE than WT chelicerase B, whereas the Km value of chelicerase B-murasame was equivalent to that of WT chelicerase B. WT serpins-1, -2 and -3, identified as scavengers for the cascade, had no reactivity against WT chelicerase B, whereas chelicerase B-murasame was inhibited by WT serpin-2, suggesting that WT chelicerae B may trigger as-yet-unsolved phenomena after performing its duty in the cascade. The reconstituted LPS-triggered cascade containing proB-murasame exhibited ∼5-fold higher CE production than that containing WT proB. ProB-murasame might be used as a high value-adding reagent for LPS detection.
Keywords: haemolymph coagulation; lipopolysaccharide; recombinant protein; serine protease; serpin.
© The Author(s) 2021. Published by Oxford University Press on behalf of the Japanese Biochemical Society. All rights reserved.