Specific amino acids affecting Drosophila melanogaster prophenoloxidase activity in vitro

Abstract

Insect prophenoloxidase (PPO) is a key enzyme that induces melanization around invading pathogens and at wounds to prevent further infection. Drosophila melanogaster has three PPO genes which have different biochemical properties following over-expression in S2 cells. As shown by automatic melanization of S2 cells, recombinant PPO3 (rPPO3) became activated upon Cu2+ addition (Cu2+-aided cells melanization without ethanol activation and substrate addition: +Cu2+; −DOPA, −Ethanol). The exact reasons for this phenomenon are still unknown. In this study, using site-directed mutagenesis and over-expression methods, we found that the place holder, two independent amino acids (equal to Manduca sexta amino acid residues: F218 and S393 in MsPPO1, F224 and E395 in MsPPO2) in the active site pocket and a missing fragment (similar to 565RPGDPGT571 in MsPPO1 and 571QGSDPRR577 in MsPPO2) at the C-terminus of PPO3, affect rPPO3-S2 cells Cu2+-aided auto-melanization. Some mutations nearly rescued rPPO3 Cu2+-aided auto-activation, which suggests that the auto-activation of wild type rPPO3 was not due to cleavage by serine proteases. We also found that the corresponding amino acids in the active site pocket have similar effect on PPO1 as on PPO3. PPO1 staining activity (Cu2+ added or not during PPO transfection; cells melanized after ethanol activation and substrate addition: ±Cu2+; +DOPA, +Ethanol) has a positive relationship with the active site pocket size as does rPPO3. The fragment of rPPO1 corresponding to the one missing from the C-terminus of PPO3 has no influence on rPPO1 staining activity after it is deleted. However, the staining activities of rPPO2 mutants decreased after deletion of those corresponding amino acid sequences. When the corresponding fragments from PPO1 or PPO2 were inserted into PPO3, the mutant rPPO3 had no influence on staining activity, but had a significantly lowered Cu2+-aided auto-activation. Thus, we found that some amino acids are important for rPPO3 Cu2+-aided auto-activation as well as PPO staining activity in vitro.