Interaction of Silkworm Larval Hemolymph Antitrypsin and Bovine Trypsin

Abstract

Antitrypsin isolated from silkworm larval hemolymph can inhibit bovine trypsin. The apparent molar ratio of silkworm antitrypsin (sw-AT) to trypsin at extrapolated null trypsin activity was determined to be 1.3 by titration of trypsin with sw-AT. The undissociability of the complex between sw-AT and trypsin on sodium dodecyl sulfate-polyacrylamide gel electrophoresis was confirmed by immunoblottingand fluorescence labeling techniques. Chemical analysis of the complex elucidated that it contained equimolar sw-AT and trypsin. Densitometric analysis of electrophoretic patterns obtained during the titration of trypsin by sw-AT suggestedthe presence of a suicide product formed from sw-AT. This was the reason why excess sw-AT was needed for complete inhibition of trypsin. In the complex, the sw-AT molecule was cut at one site but the fragments produced were still joined together. Trypsin in the complex was released by treatment at pH 10.0, and it was deduced that the complex formation involved acyl-bond formation between sw-AT andtrypsin. The sw-AT component obtained from the alkali-treated complex possessed two kinds of NH₂-terminal amino acid sequences.Non-covalent forces may bind the two fragments of sw-AT, which could be separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Amino-terminal amino acid sequence analysis of the large fragment gave a sequence identical with that of intact sw-AT. This indicated that the reactive site of sw-AT with trypsin was located at the COOH-terminal region of the molecule. These characteristics resemble those of inhibitors belonging to the serpin family.