BEHAVIORAL AND ELECTROPHYSIOLOGICAL STUDY OF ANTIFEEDANT MECHANISMS ASSOCIATED WITH POLYHYDROXY ALKALOIDS

Eleven polyhydroxy alkaloids of plant origin were tested for antifeedant effects against larvae of the lepidopterans Spodoptera littoralis, Spodoptera frugiperda, Heliothis virescens, and Helicoverpa armigera. Data from behavior and electrophysiological investigations were correlated to reveal information on the mode of action of the antifeedants. The pyrrolidine DMDP was an effective antifeedant for all four species, whereas the piperidines fagomine and XZ-1 and the pyrrolizidine alexine were all ineffective as antifeedants. The activity of the pyrrolidines CYB-3 and DAB-1, the piperidines DNJ, DMJ, and BR1, and the bicyclic octahydroindolizine castanospermine varied among species. The investigation focuses on the structural similarities between some of the alkaloids and some common phagostimulatory sugars and illustrates a neural interaction involving the neurons that are differentially responsive to alkaloids and sugars. In S. littoralis, the neurons responding specifically to the alkaloids DMDP, DAB-1, and castanospermine and to the sugars fructose, sucrose, and glucose are more active when the compounds are applied singly than when an alkaloid and a sugar are applied together. The implications for the occurrence and functioning of different sugar receptor sites are discussed.