Hydrolysis of juvenile hormone in diapausing and non-diapausing larvae of the southwestern corn borer,Diatraea grandiosella

Summary The role of juvenile hormone (JH) esterases in relation to the diapause state of the southwestern corn borer,Diatraea grandiosella, was examined. The facultative larval diapause of this insect is dependent upon the presence of JH. Plasma, fat body, midgut, and body wall extracts metabolized [³H]JH I and [³H]JH III to JH-acid in vitro. JH-diol, JH-acid-diol, or conjugated polar metabolites were not detected. A longer half life of [³H]JH I was found in vitro in the plasma of diapausing larvae than in that of non-diapausing larvae. Although JH hydrolytic activity was relatively low in the plasma of pre-diapausing and diapausing larvae, systematic changes were observed suggesting that JH esterases may be involved in regulating the JH titer during this period. The JH hydrolytic activity found in the plasma of diapausing larvae was 3 to 5 times lower than that found in the plasma of mid-last instar non-diapausing larvae. Gel filtration profiles obtained from the plasma of diapausing and non-diapausing larvae suggested that JH esterases and -naphthyl-acetate esterases are different enzymes. Multiple overlapping peaks of JH hydrolytic activity with an apparent molecular weight range of 43,000 to 75,000 were detected, whereas 2 separate peaks of -naphthyl-acetate hydrolytic activity (apparent mol. wt. ca. 54,000, and 120,000) were detected. Gel filtration of supernatants of fat body indicated that JH was hydrolyzed at a lower rate by the fat body of pre-diapausing larvae than by that of non-diapausing larvae.     

Juvenile hormone metabolism in the plasma,integument, midgut,fat body,and brain during the last instar of the tobacco hornworm,Manduca sexta (L.)

Juvenile hormone (JH) III esterase and JH III epoxide hydrolase activity was found in the integument, midgut, fat body, and brain during last instar development of the tobacco hornworm, Manduca sexta. JH esterase activity was primarily located in the cytosol in these tissues while the majority of the JH epoxide hydrolase activity was found in the microsomes. A prewandering (on day 3) and postwandering (on day 8) peak in plasma JH III esterase activity occurs in the last instar of gate I M. sexta. The JH esterase activity profile in integument, midgut, fat body, and brain followed a similar pattern to that of the plasma. The only exception to this was the absence of the postwandering, prepupal (on day 8) JH esterase peak in the fat body. The topical application of the juvenoid, (RS)-methoprene, failed to induce fat body JH esterase activity but increased activity in the plasma, integument, midgut, and brain in M. sexta prepupae. These results indicate that the source of plasma JH esterase activity is not always the fat body as previously hypothesized. The developmental profile of tissue JH epoxide hydrolase activity was also similar to that of JH esterase suggesting that both enzymes may be regulated partly by the same factors and that JH epoxide hydrolase may also have an important, previously unrecognized functional role in JH regulation and insect metamorphosis. Multiple isoelectric forms of tissue-specific JH esterases and JH epoxide hydrolases were found in integument, midgut, fat body, and brain. The JH esterases in these tissues had isoelectric points more acidic than that for plasma. Tissue α-naphthyl acetate esterase, developmental profiles, and inhibitor sensitivity to 3-(octylthio)-1,1,1-trifluoropropan-2-one differed significantly from that for JH esterase, suggesting that they represent different enzymes. ©1992 Wiley-Liss, Inc.     

Cloning and structural characterization of juvenile hormone diol kinase in Spodoptera litura

Juvenile hormone (JH) is one of the key insect hormones that regulate metamorphosis. Juvenile hormone diol kinase (JHDK) is an enzyme involved in JH metabolism and catalyzes JH diol to form a polar end product, JH diol phosphate that has no JH activity. In this study, a JHDK complementary DNA (cDNA) was cloned from Spodoptera litura and the structure and expression of the gene was characterized. The cDNA was 714 base pairs in length and encoded a protein of 183 amino acids with a molecular mass of 21 kDa and an isoelectric point of 4.55. Based on the structure, three putative calcium binding motifs and guanosine triphosphate‐binding motifs were predicted in the protein. Modeling of the 3‐D structure showed that the protein consisted of eight α‐helixes linked with loops, with no β‐sheets. The gene was expressed in the epidermis, fat body and midgut of fifth and sixth instar larvae. The expression level in the epidermis was lower than in the fat body and midgut. The gene was expressed at higher levels at the early stages than in the later stages of fifth and sixth instar midgut and fat body. The results suggest that this gene may be involved in the regulation of the JH titer in larvae of S. litura.     

Hormonally-regulated differential expression of the two duplicated insecticyanin genes,ins-a and ins-b,during development of the tobacco hornworm,Manduca sexta

The effects of juvenile hormone (JH) and 20-hydroxyecdysone (20E) on the developmental expression of the two insecticyanin genes, ins-a and ins-b, were investigated with two gene-specific probes. Removal of the corpora allata (-CA, source of JH) clearly delayed and down-regulated the epidermal expression of these genes but enhanced their expression in the fat body during the early development of the fifth instar. Application of JH I to the -CA larvae at the time of head capsule slippage completely restored the normal epidermal expression pattern of the two genes in the early fifth instar, then INS-a mRNA declined prematurely whereas INS-b mRNA remained similar to that in the intact larvae. By contrast, in the fat body of -CA larvae, the exogenous JH had little effect on the levels of INS-a mRNA, but enhanced expression of INS-b mRNA relative to intact larvae. Culture of epidermis from day 1 fifth instar larvae with 40 ng/ml 20E for up to 24 h accelerated the loss of INS-a mRNA without affecting the levels of INS-b mRNA. Both mRNAs declined in isolated larval abdomens over a 24 h period, and this decline was slowed by 1 g methoprene (a JH analog). Together these results indicate that JH controls the levels of the two mRNAs in both the epidermis and fat body, with additional factors involved in regulating these genes in the fat body during the molt and in the epidermis during the growth phase.     

Juvenile hormone-dependent vitellogenin synthesis in Locusta migratoria fat body: Inducibility related to sex and stage

Juvenile hormone (JH)-dependent vitellogenin (Vg) synthesis in the fat body of Locusta migratoria is normally limited to sexually mature adult females. As a step toward examining the basis of this limitation, we have tested female and male locusts in a series of stages after the third larval molt for inducibility of Vg synthesis by the synthetic JH analog, methoprene. We find that in the fourth and fifth larval instars fat body of both sexes can be induced to produce Vg, but in the adult stage females respond strongly while no more than trace amounts can be induced in males. Quantitative assays show relative responsiveness in the order: adult female > fifth instar female > fifth instar male ? adult male. During the fifth instar of both sexes, maximal vitellogenic response was obtained in midinstar. After the larval-adult ecdysis, female fat body was unresponsive during the first 4 days, then responsiveness increased and by Day 8 after ecdysis fat bodies were fully as competent to produce Vg as at Day 14, the usual maximum of the first vitellogenic cycle due to endogenous JH. Larval and adult female fat bodies implanted into male larvae are competent for Vg synthesis after metamorphosis, so that the differences between adult male and female cannot be imposed by the male milieu intérieur during the larval-adult molt. In male and female precocious adults, produced by treatment of fourth instars with precocene, fat body responded to methoprene as in normal adults. We conclude that factors intrinsic to the fat body cells, determined early in development, are responsible for differential gene programing in males and females, which is partially expressed by the fifth instar but fully manifest only after a molt in the absence of JH.     

Thyroxine influence on different ion-specific adenosine triphosphatase activities in fat body of Bombyx mori during development

The effects of thyroxine on the activity of different ATPases (Na⁺-K⁺, Ca²⁺, and Mg²⁺) in fat body cells of the silkworm, Bombyx mori, were investigated during different developmental stages. In both sexes the maximum enzyme activity was observed in the fat body cells of day 7 last instar larva (the day before spinning). Na⁺-K⁺, Ca²⁺-, and Mg²⁺-ATPase activity in the fat body markedly declined after pupation and continued to decrease in day 1 adults. Injection of thyroxine (T4) at doses of 1.0 and 2.0 μg/g during fifth instar significantly elevated all ATPase activities in the larval, pupal, and adult stages in both sexes. At a dose of 0.5 μg/g, T4 had no effect on day 2 fifth instar larva, although it increased the ATPase activity at the other stages investigated. A higher dose (3.0 μg/g) caused a significant reduction in enzyme activity in all stages with the exception of day 2 fifth instar larva. Thus, the repression of enzyme activity with the higher dose and the elevation of enzyme activity with the lower dose establish the biphasic nature of T4 action on the ATPase system in fat body cells of the silkworm. Arch. Insect Biochem. Physiol. 37:191–196, 1998. © 1998 Wiley-Liss, Inc.     

Factors influencing juvenile hormone esterase activity in the wax moth, Galleria mellonella

The effects of juvenile hormone, antiallatotropins, selected surgical procedures and starvation on the juvenile hormone esterase levels in Galleria larvae and pupae were investigated. JH reduced JH esterase activity in larvae but induced the enzyme in 1-day-old pupae. In vitro studies confirmed that the peak of synthesis and/or release of JH esterase from the fat body of last instar larvae occurred 4 days after ecdysis. These studies also showed that fat body from JH-treated larvae released much less enzyme than controls. Antiallatotropins, precocene 2 and ZR 2646 also reduced JH esterase levels in larvae, but ZR 2646 induced JH esterase in pupae. In starved larvae, JH esterase did not increase during the first five days. A minimum of 36 hr of feeding was necessary for the larval esterase activity to increase on schedule on day 4 of the last larval stadium. When day-l larvae were ligated behind the head or the prothorax, they had lower JH esterase levels and yet showed a slight increase in the enzyme when the larvae reached the age of 4 days. The significance of these results is discussed in relation to the possible control of esterase activity during metamorphosis.     

Influence of the braconid Glyptapanteles liparidis on the juvenile hormone titer of its larval host,the gypsy moth,Lymantria dispar

The increase in the juvenile hormone (JH) III titer in the hemolymph of Lymantria dispar larvae that were parasitized by the endoparasitoid braconid, Glyptapanteles liparidis, during the host's premolt to third instar, coincided with the molt of the parasitoid larvae to the second instar between day 5 and 7 of the fourth host instar. It reached a maximum mean value of 89 pmol/ml on day 7 of the fifth instar while it remained below 1 pmol/ml in unparasitized larvae. Only newly molted fifth instar hosts showed a low JH III titer similar to that of the unparasitized larvae. JH II, which is the predominant JH homologue in unparasitized gypsy moth larvae, also increased relative to controls in the last two samples (days 7 and 9) from parasitized fourth and fifth instars. Compared to unparasitized larvae, a generally reduced activity of JH esterase (JHE) was found in parasitized larvae throughout both larval stages. The reduction in enzyme activity at the beginning and at the end of each instar, when the JHE activity in unparasitized larvae was high, may be in part responsible for the increased JH II and JH III titers in parasitized larvae. Ester hydrolysis was the only pathway of JH metabolism in the hemolymph of unparasitized and parasitized gypsy moth larvae as detected by chromatographic assays. © 1996 Wiley-Liss, Inc.     

Analysis of precocious metamorphosis induced by application of an imidazole derivative to early third instar larvae of the silkworm,Bombyx mori

When an imidazole derivative (KK-42) was applied to day 1 third instar larvae of the silkworm, Bombyx mori, 100% underwent precocious metamorphosis at the end of the fourth instar. Thus, the fourth instar becomes the last instar in these KK-42–treated larvae. The endocrine systems underlying the precocious metamorphosis were analyzed in the present study. Hydroprene application during the prolonged third instar after KK-42 treatment can prevent precocious metamorphosis, and the results showed dose-dependent and stage-specific effects. From analysis of the developmental changes in ecdysteroid levels in both KK-42–treated larvae and KK-42– and hydroprene-treated larvae, we conclude that changes in JH levels during the third larval instar can modify the secretion pattern of prothoracic glands and that during the next larval instar, very low ecdysteroid levels during the early stages of the presumptive last (fourth) larval instar are directly related to precocious metamorphosis. Arch. Insect Biochem. Physiol. 36:349–361, 1997. © 1997 Wiley-Liss, Inc.     

Developmental and sex-dependent regulation of storage protein synthesis in the silkworm,Bombyx mori

The mechanism of sex-dependent expression of a major plasma protein, referred to as storage protein 1 (SP-1) was studied during development of the silkworm, Bombyx mori. SP-1 occurred in the hemolymph of the female as well as in the male larvae until the end of the fourth larval instar. In the last instar larvae, the amount of SP-1 in the hemolymph greatly increased in females, but markedly declined in males. The level of fat body mRNA for SP-1 reflected the developmental and sex-dependent changes in the hemolymph concentration of SP-1. The developmental patterns of hemolymph proteins in the third and the fourth instar larvae of sex-mosaic individuals were quite analogous to those observed in normal larvae at the same developmental stages. The hemolymph concentration of SP-1 at the last larval instar of the sex mosaics varied among individuals irrespective of the gonad compositions. In vitro culture of the fat body cells dissected from several locations of a sex-mosaic larva provided evidence that each fat body cell in a common hemolymph milieu synthesizes a high (female type) or a low (male type) level of SP-1 depending on the sex chromosome composition. The amount of vitellogenin in the hemolymph of the sex-mosaic pupae was in proportion to that of SP-1 at the last larval instar. From these results, it is suggested that the sex-dependent expression of SP-1 and vitellogenin in B. mori is genetically determined and developmentally regulated without participation of the reproductive organs or any sex-specific humoral factors.     

Regional differentiation of fat bodies in larvae of the indianmeal moth,Plodia interpunctella

Larvae of the Indianmeal moth, Plodia interpunctella, contain two morphologically distinct fat bodies. Tan-colored, highly tracheated fat body located posteriorly in the abdomen was the predominant fat body tissue during the early larval instars. White, sheet fat body located more anteriorly became the predominant type during the fifth (last) larval instar and eventually occupied most of the space of the hemocoel. Ultrastructural morphology of tan fat body showed the tissue to be composed of cells containing numerous, large, spherical mitochondria, with only few lipid, glycogen, or protein storage structures. In contrast, white fat body was composed of cells that in later larval stages had organelles typical of storage functions. Both fat bodies produced storage proteins during the late fifth instar, whereas only white fat body accumulated the storage proteins. Tan fat body dispersed and apparently autolyzed in pharate pupae, whereas the white fat body metamorphosed and persisted into the adult stage. These observations indicate that fat body of the Indianmeal moth is functionally and morphologically differentiated along the anterior-posterior axis into two regional subgroups of cells.     

Juvenile hormone-specific esterases in the haemolymph of the tobacco hornworm, Manduca sexta

A new sensitive method for determining juvenile hormone (JH) hydrolysis has been developed which measures the release of tritiated methanol from JH labelled in the methyl ester group. Using this assay we investigated the interaction of JH with haemolymph esterases and haemolymph JH-binding protein. Haemolymph from fifth instar larvae of Manduca sexta contains two families of esterases which can be distinguished by their reactivity with diisopropylphosphorofluoridate (DFP). One group consists of general esterases which are capable of hydrolysing free JH but not JH complexed to the binding protein and are completely inhibited by low concentrations of DFP (10⁻⁴ M). The other group (JH-specific esterases), relatively DFP resistant, has little detectable general esterase activity but can hydrolyse JH bound to the binding protein as well as free JH. The major JH-esterase has a sedimentation coefficient of 4·98 S and a diffusion coefficient of 6·4 × 10⁻⁷ cm² sec⁻¹. The molecular weight calculated from these values is 6·7 × 10⁴. The general esterases are present throughout the larval stage, but the JH-specific esterases are barely detectable until the fourth day of the fifth instar when they suddenly appear at a high concentration. Since the general esterases cannot hydrolyse bound JH, one function of the binding protein is to protect JH during transport in the early instars, thus confirming that the binding protein is a true carrier of JH. In the late fifth instar prior to metamorphosis, however, JH-specific esterases appear in the haemolymph resulting in the hydrolysis of JH complexed to the carrier protein. Thus, by lowering JH titre, the JH-esterases play an important rôle in development in M. sexta.     

Apparent inhibition of in vitro juvenile hormone biosynthesis by the corpus cardiacum of adult crickets (Gryllus bimaculatus and Acheta domesticus) is due to juvenile hormone esterase

When measuring the in vitro JH III-biosynthesis by corpora allata (CA) from adult female crickets in the presence of corpora cardiaca (CC), the amount of JH III in the medium decreased in a dose dependent manner. The CC of a 4-day-old female Gryllus bimaculatus contain 42 pmol.pair CC⁻¹ Grb-AKH, 0.62 pmol.pair CC⁻¹ octopamine, and a JH-esterase activity of 9.8 pmol JH.h⁻¹.pair CC⁻¹. Comparable values for Acheta domesticus are 21 pmol.pair CC⁻¹ Grb-AKH, 0.53 pmol.pair CC⁻¹ octopamine, and 6.5 pmolJH.h⁻¹.pair CC⁻¹ of JH-esterase activity. Even if the entire octopamine content of the CC were released into the medium, the concentration would be below the 10⁻⁵ M threshold for octopamine inhibition of JH synthesis. An in vitro AKH inhibition of JH III synthesis was observed, but only at a relatively high concentration (10⁻⁵ M). If the entire AKH content (10⁻⁶ M) of the CC were released into the medium, the AKH concentration would approach JH synthesis inhibiting levels. However, the rate of release of AKH in vitro was very low, and, therefore, AKH from the CC could not affect JH synthesis. In contrast, a specific JH-esterase, released by isolated CC into the medium, was sufficiently high in both cricket species to account for the observed decrease in JH III present. OTFP-sulfone (10⁻⁵ M) restored apparent JH synthesis of the CA to the control level. There was no reduction in the amount of JH released when CA were incubated with heat treated CC. The CA themselves contained almost no JH-esterase activity. © 1997 Wiley-Liss, Inc.     

Cloning and expression of apolipophorin-III from the common cutworm,Spodoptera litura

We have cloned apolipophorin-III (apoLp-III) cDNA from adult fat body of Spodoptera litura. The sequence encodes a 188 amino acid polypeptide including a 22 amino acid leader peptide. The circular dichroism spectrum from the purified apoLp-III indicated a considerable content of α-helix. Sequence alignment showed that S. Litura apoLp-III has a relatively high degree of sequence identity with the apoLps-III of lepidopteran, Manduca sexta (72%), Galleria mellonella (67%), Bombyx mori (60%). These alignments with four lepidopteran apoLps-III showed highly identical residues and conservative replacements at a degree of 86%. Levels of mRNA from last instar larval fat body and adult fat body were compared through Northern blot analysis using ³²P-labeled 704 bp apoLp-III cDNA probe. A 850 bp mRNA was detected in both stages and mRNA level of day 1 adult fat body was much higher than that of last instar larval fat body. The tissue-distribution of apoLp-III mRNA in adult ovary and testis was also examined and we confirmed the presence of apoLp-III mRNA in ovary and testis although apoLp-III was expressed in these tissues at very low levels compared with the adult fat body. Arch. Insect Biochem. Physiol. 39:166–173, 1998. © 1998 Wiley-Liss, Inc.     

Reduced activity of juvenile hormone esterase in microsporidia-infected Lymantria dispar larvae

Infection of the fat body of Lymantria dispar (Lep.: Lymantriinae) larvae with the microsporidium Vairimorpha disparis has severe effects on juvenile hormone (JH) metabolism of the host. Beginning 8 days postinfection, activity of the JH degrading enzyme JH-esterase was significantly lower in the hemolymph of infected than uninfected larvae. Activity remained low as microsporidiosis progressed. JH titers were slightly elevated in infected larvae; the difference was not significant in most cases. This disturbance of JH metabolism may be due to generally impaired fat body functions and high demand for resources by the developing pathogen.     

Allatotropic and allatostatic activities in extracts of brain and the effects of Manduca sexta allatotropin and Manduca sexta allatostatin on juvenile hormone synthesis in vitro by corpora allata from the Eri silkworm, Samia cynthia ricini

Both allatotropic and allatostatic activities were found in crude extracts of brain from adult and larval Eri silkworm, Samia cynthia ricini, but it seems that allatotropic activity dominates in each stage. There was a high level of allatotropic activity in the crude extract of brain from newly emerged female adults, but allatostatic activity appeared in the bioassay when excessive amounts of crude extracts of brain were added. Crude extracts of brain from premoulting fourth‐instar larvae and from newly ecdysed fifth‐instar larvae exhibited allatotropic activities, whereas extracts of brain from the second and third day of the fifth‐instar larvae inhibited juvenile hormone (JH) release slightly. Allatotropic activity from the brains of adults and larvae stimulated both adult and larval corpora allata (CA) to synthesize JH. Manduca sexta allatotropin (AT) (Mas‐AT) and M. sexta allatostatin (AST) (Mas‐AST) also stimulated and inhibited both adult and larval S. cynthia ricini CA to synthesize JH, respectively. Higher concentrations of Mas‐AT (10^?4 or 10^?3 M) showed an inhibitory effect on adult CA. CA from newly emerged female adults were the most sensitive to inhibition by Mas‐AST, whereas CA from female pharate adults at about 6 h before adult emergence were the most sensitive to stimulation by Mas‐AT and S. cynthia ricini brain allatotropic activity. An extract of brain and Mas‐AT induced some of the non‐active female pharate adult CA at 12 h before emergence to synthesize a small amount of JH.     

Ecdysone oxidase and 3-oxoecdysteroid reductases in Manduca sexta: Developmental changes and tissue distribution

The activities of ecdysone oxidase (EO), 3-oxoecdysteroid 3α-reductase (3α-R), and 3-oxoecdysteroid 3β-reductase (3β-R) were determined for epidermis, hemolymph, and fat body of wandering fifth instar Manduca sexta larvae and for midguts of various developmental stages between 3 days after the last larval and 14 days after the pupal ecdysis. The larval midgut was the only organ showing substantial specific activities of EO and 3α-R, and both increased up to the seventh day after ecdysis. Hemolymph and fat body had only moderate to high 3β-R and low EO activites, and the epidermis did not contain significant activity of any of the enzymes. On the ninth day after the last larval ecdysis the larval midgut epithelium was replaced by a new pupal midgut epithelium. After this event only 3β-R was restored to high activities, whereas EO and 3α-R showed only low to marginal activities. It is concluded that only the larval midgut has a role in the inactivation of ecdysteroids by 3-epimerization. © 1993 Wiley-Liss, Inc.

1 This article is a US Government work and, as such, is in the public domain in the United States of America.