Host hemolymph monophenoloxidase activity in parasitized Manduca sexta larvae and evidence for inhibition by wasp polydnavirus

Abstract

In insects, one of the primary routes of defense against parasites is encapsulation by hemocytes followed by melanization, in which tyrosine and DOPA are converted to melanin via toxic quinone intermediates. This report describes the use of an in vitro radiochemical assay to monitor hemolymph monophenoloxidase (MPO) conversion of [ 3H]tyrosine to [ 3H]DOPA, using a method utilized previously for dipteran and mammalian enzymes. Parasitism of fifth instar tobacco hornworm larvae by the braconid wasp Cotesia congregata depresses the rate of hemolymph monophenoloxidase activity in the host. Significant inhibition of hemolymph MPO was detectable in newly parasitized larvae and terminal stage hosts. A similar effect was seen in unparasitized larvae following injection of sucrose-gradient purified wasp polydnavirus (PDV) particles, which are normally injected by the female wasps into the host, suggesting the inhibition may be virally mediated. Hemolymph MPO activity was assayed in vitro 24 h after injection of PDV in vivo, and intercalation of viral DNA by exposure to psoralen and long-wave u.v. light eliminated its inhibitory effect on MPO. Despite inhibition of hemolymph MPO activity by parasitism, host cuticular enzymes appear unimpaired, since cuticular melanization occurs at sites of integumental wounding during emergence of the wasps from the host. Red pigments appear in the dorsal vessel and integument of parasitized and virus-injected larvae; whether these pigmentation changes are related to effects of parasitism on tyrosine metabolism and ommochrome biosynthesis remains to be determined.