Changes in fat body urate synthesizing capacity during the larval-pupal transformation of the tobacco hornworm, Manduca sexta

Abstract

Large quantities of uric acid or urates are deposited in the fat body of tobacco hornworms, Manduca sexta, between the larval and pupal stages in development. The cause of this increased deposition was investigated by measuring fat body urate synthesizing capacity (USC) during the larval-pupal transformation (LPT). An 85% loss in USC occurs between the late-feeding larval and newly-ecdysed pupal stages. Urate synthesizing capacity, per se, is not responsible for the increase in fat body urate deposition, as evidenced by comparable rates of urate deposition in insects whose USCs differ by a factor of three. Rather, the increased deposition is caused by an increase in substrate availability. The loss in USC is programmed in two steps. The first programmed loss occurs by the end of the feeding fifth larval instar, since hornworms ligated at the pink stripe (PS) stage and measured at the time of the larval-pupal ecdysis (LPE) exhibit an increased retention of USC relative to controls. The second programmed loss in USC occurs between PS + one and PS + two day stages in development. A single administration of 20-hydroxyecdysone to hornworms ligated at the PS stage causes a restoration of this loss in USC by PS + two days, which is further sustained until the LPE. Unexpectedly, when measured immediately after the LPE, the second programmed loss in USC can be delayed until PS + 3 days if non-ligated hornworms are daily administered 20-hydroxyecdysone. The possibility is raised that 20-hydroxyecdysone does not act alone in causing the loss in fat body USC.