Further characterization of the 2-deoxyecdysone C-2 hydroxylase from Locusta migratoria

Abstract

Additional data are provided on the enzyme 2-deoxyecdysone C-2 hydroxylase which has been shown in a previous study (Kappler et al., 1986) to be a mitochondrial hydroxylase with some classical characteristics of a cytochrome P-450 monooxygenase but which appeared to be insensitive to CO. Using 18O 2, we have now demonstrated that molecular oxygen is directly incorporated into ecdysone during the process of C-2 hydroxylation. Neither cumene hydroperoxide nor linoleyl hydroperoxide could support C-2 hydroxylation. When the reaction was sustained by α-ketoglutarate, addition of cofactors like Fe 2+, ascorbate and catalase caused only a slight increase of the enzymatic activity whereas the α-ketoglutarate-dependent hydroxylation was largely decreased in the presence of malonate; these data eliminate the possible existence of a dioxygenase mechanism for C-2 hydroxylation. The paper also provides inhibition kinetics which indicate that 2-deoxy-20-hydroxyecdysone, 2,22-bisdeoxyecdysone and 2,22,25-trideoxyecdysone are competitive inhibitors of the C-2 hydroxylase whereas the 3-epi isomer of 2-deoxyecdysone is a non-competitive inhibitor.