Interactions between a non-terpenoid carbamate with juvenile hormone activity and esterases in the last larval instar of Adoxophyes reticulana Huebn

The summer fruit tortrix moth is very susceptible to compounds with juvenile hormone activity. Ro 13-5223, a non-terpenoid carbamate, is 3–4 orders of magnitude more active in inhibiting metamorphosis in the last-instar larvae than juvenile hormone I. Larvae reared in permanent contact with this substance are characterised by higher juvenile hormone esterase activity but lower α-naphthyl esterase activity when compared to the untreated controls. In vitro Ro 13-5223 inhibits juvenile hormone hydrolysis but only in dosages which are far above the concentrations found in haemolymph of larvae exposed to the ¹⁴C-labelled compound. It does not serve as a substrate for juvenile hormone esterase in vitro even though it induces the enzyme activity in vivo. All these characteristics may account for the very high biological activity of Ro 13-5223 which disrupts humoral coordination of insect development.     

Biochemical and immunological properties of different electrophoretic forms of juvenile hormone esterase from Trichoplusia ni (Hübner)

The two major electrophoretic forms (pI 5.5, 5.3) of juvenile hormone esterase were independently isolated from hemolymph of larval Trichoplusia ni. A simple and rapid preparation procedure of poly(ethylene glycol) precipitation, Sephadex gel filtration and chromatofocusing is described. Analytical isoelectric focusing showed only one peak of juvenile hormone esterase activity in the respective purified samples, whereas there were four (two major) such peaks in the hemolymph. The amino acid composition of the two forms was similar. The comparison of peptides obtained after protein fragmentation by cyanogen bromide showed that juvenile hormone esterases A and B were very similar, although definitely not identical, in amino acid sequence. The immunological comparisons of juvenile hormone esterases suggested that the number of polyclonal antibody binding sites on both forms was the same. There were no detected differences between immunoreactive properties of juvenile hormone esterase from the hemolymph of different stages of larval maturation. The influence of the active site of the enzyme on its antigenic properties was studied by immunocompetition. The inactive, heat-denatured juvenile hormone esterase can only partially protect against inhibition of its activity by the antibodies, whereas an organophosphate inhibitor which covalently binds to the catalytic center of the enzyme did not change the immunoreactive properties in comparison to active juvenile hormone esterase from hemolymph. These data show that heat-denatured juvenile hormone esterase has lost at least one or more epitopes, but the catalytic site of the enzyme is distinct from the epitopes.     

Juvenile hormone esterase is a biochemical anti-juvenile hormone agent

Juvenile hormone esterase, purified by affinity chromatography from the larval hemolymph of Manduca sexta in the fifth stadium, was injected into larvae of the same species in the earlier stadia resulting in a blackening of the cuticle following ecdysis to the next larval stadium. This anti-juvenile hormone response was dose-dependent for an injection in the second, third or fourth stadium. Cuticular blackening was prevented by treating larvae with the juvenoid epofenonane. Larval response to injected juvenile hormone esterase also varied with the time of injection within a single stadium, having a maximum effect for injections at the time of head capsule slippage. Juvenile hormone esterase activity measured from the hemolymph after injection of larvae in the second stadium decreased over an 11 h time-course. Because the anti-juvenile hormone effects resulting from a single injection of juvenile hormone esterase were dependent on the time of injection, it appears that when juvenile hormone biosynthesis is active in the insect, the duration of enzyme activity limits the anti-juvenile effects that can be induced.     

A novel protein that binds juvenile hormone esterase in fat body tissue and pericardial cells of the tobacco hornworm Manduca sexta L

Juvenile hormone esterase degrades juvenile hormone, which acts in conjunction with ecdysteroids to control gene expression in insects. Circulating juvenile hormone esterase is removed from insect blood by pericardial cells and degraded in lysosomes. In experiments designed to characterize proteins involved in the degradation of juvenile hormone esterase, a pericardial cell cDNA phage display library derived from the tobacco hornworm moth Manduca sexta L. was constructed and screened for proteins that bind juvenile hormone esterase. A 732-base pair cDNA encoding a novel 29-kDa protein (P29) was isolated. Western and Northern analyses indicated that P29 is present in both pericardial cell and fat body tissues and is expressed in each larval instar. In immunoprecipitation experiments, P29 bound injected recombinant juvenile hormone esterase taken up by pericardial cells and native M. sexta juvenile hormone esterase in fat body tissue, where the enzyme is synthesized. Binding assays showed that P29 bound juvenile hormone esterase more strongly than it did a mutant form of the enzyme with mutations that perturb lysosomal targeting. Based on these data, we propose that P29 functions in pericardial cells to facilitate lysosomal degradation of juvenile hormone esterase.     

Isolation of juvenile hormone esterase and its partial cDNA clone from the beetle, Tenebrio molitor

Juvenile hormone esterase (JHE) plays an essential role in insect development. It is partially responsible for the clearance of juvenile hormone (JH) which regulates various aspects of insect development and reproduction. Because of its role in regulating JH titer, this enzyme has been targeted for development of biologically-based insecticides. JHE was partially purified from the beetle, Tenebrio molitor, using a transition state analog as the affinity ligand. Two forms of JHE were characterized by activity analysis, isoelectric focusing, two-dimensional SDS-PAGE and N-terminal sequence analysis. The esterase is associated with two proteins of sizes 71 and 150 kDa, both of which are active on JH III. A partial cDNA clone for the enzyme was isolated based on the sequence of N-terminal and internal peptides. Its sequence indicates that JHE from T. molitor and Heliothis virescens may have a common origin.     

Preparation of specific antisera to 15alpha-hydroxyestrogens.

The synthesis of haptens of 15alpha-hydroxyestrone, 15alpha-hydroxyestradiol, and 15alpha-hydroxyestriol (estetrol) was undertaken, to obtain specific antisera required for enzyme immunoassay. 3-(1-Carboxypropyl) ethers of these 15alpha-hydroxyestrogens were prepared and conjugated with bovine serum albumin and horseradish peroxidase. The specificity of antisera elicited against bovine serum albumin conjugates was checked by the enzyme immunoassay by using horseradish peroxidase-labeled antigen, and proved to be satisfactory in terms of cross-reactivities to related compounds.     

Insecticidal properties of genetically engineered baculoviruses expressing an insect juvenile hormone esterase gene.

Exploring the possibility of enhancing the properties of baculoviruses as biological control agents of insect pests, we tested the effect of expressing an insect gene (jhe) encoding juvenile hormone esterase. Juvenile hormone esterase inactivates juvenile hormone, which regulates the outcome of an insect molt. A cDNA encoding the juvenile hormone esterase of Heliothis virescens was inserted into the genome of Autographa californica nuclear polyhedrosis virus such that the gene was expressed under the control of a strong, modified viral promoter. This virus, however, naturally encodes an ecdysteroid UDP-glucosyltransferase which inactivates ecdysone, the hormone which initiates molting. Since ecdysteroid UDP-glucosyltransferase could mask the effects of jhe expression by blocking molting entirely, jhe-expressing viruses in which the ecdysteroid UDP-glucosyltransferase gene was deleted or disrupted were constructed. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of proteins from infected cells revealed several intracellular proteins and two major secreted proteins which reacted with antibodies to authentic juvenile hormone esterase. Western blot analysis coupled with tunicamycin treatment indicated that differential glycosylation was responsible for the multiple products. Hemolymph of recombinant virus-infected fourth-instar Trichoplusia ni larvae contained levels of juvenile hormone esterase activity 40-fold higher than maximal levels found in uninfected larvae. However, little or no difference in developmental characteristics, weight gain, or time of mortality was observed between insects infected with the jhe-expressing viruses and control viruses.     

Insecticidal properties of genetically engineered baculoviruses expressing an insect juvenile hormone esterase gene.

Exploring the possibility of enhancing the properties of baculoviruses as biological control agents of insect pests, we tested the effect of expressing an insect gene (jhe) encoding juvenile hormone esterase. Juvenile hormone esterase inactivates juvenile hormone, which regulates the outcome of an insect molt. A cDNA encoding the juvenile hormone esterase of Heliothis virescens was inserted into the genome of Autographa californica nuclear polyhedrosis virus such that the gene was expressed under the control of a strong, modified viral promoter. This virus, however, naturally encodes an ecdysteroid UDP-glucosyltransferase which inactivates ecdysone, the hormone which initiates molting. Since ecdysteroid UDP-glucosyltransferase could mask the effects of jhe expression by blocking molting entirely, jhe-expressing viruses in which the ecdysteroid UDP-glucosyltransferase gene was deleted or disrupted were constructed. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of proteins from infected cells revealed several intracellular proteins and two major secreted proteins which reacted with antibodies to authentic juvenile hormone esterase. Western blot analysis coupled with tunicamycin treatment indicated that differential glycosylation was responsible for the multiple products. Hemolymph of recombinant virus-infected fourth-instar Trichoplusia ni larvae contained levels of juvenile hormone esterase activity 40-fold higher than maximal levels found in uninfected larvae. However, little or no difference in developmental characteristics, weight gain, or time of mortality was observed between insects infected with the jhe-expressing viruses and control viruses.     

Juvenile hormone esterase activity during the last larval and pupal stages of Tenebrio molitor

In vitro analysis of juvenile hormone esterase activity of haemolymph of T. molitor was performed during the end of post-embryonic development. Weak activity was found in penultimate stage larvae as in the major part (except the last day) of last-larval instar, while very high activity was monitored in the early pupae (female or male).This pupal peak was the only one detected during development in the insect, coinciding with the pupal juvenile hormone sensitive period. The first juvenile hormone sensitive period, during the lastlarval instar, does not seem to be protected by any juvenile hormone esterase activity in contrast to other species. These results suggest a central control for the drop in juvenile hormone level ceasing synthesis by the corpora allata after integration of external stimuli. This hypothesis could explain the natural occurrence of prothetelic larvae, the absence of pupal adult intermediates and the variable number of instars in Tenebrio.     

In vitro expression and biochemical characterization of juvenile hormone esterase from Manduca sexta

Juvenile hormone esterase (JHE) is a selective enzyme that hydrolyzes the methyl ester of juvenile hormone. This enzyme plays an important role in the regulation of metamorphosis in caterpillars, and is implicated in additional roles in development and reproduction in this and other orders of insect. The full length coding region of the JHE cDNA from Manduca sexta was subcloned into the baculovirus AcMNPV genome under the control of the p10 promoter. The recombinant virus demonstrated the expression of high levels of JHE activity when infected into Hi5 cells from Trichoplusia ni. The recombinant protein was partially purified by anion exchange chromatography and its biochemical characterization showed similar features to the wild type protein. The recombinant JHE has an estimated MW of 66500 Da. Some heterogeneity with the enzyme was observed when analyzed by isoelectric focusing, although the peak of JHE activity was observed at pI=6.0. It is highly sensitive to trifluoroketone inhibitors and certain phosphoramidothiolates, while relatively insensitive to other common esterase inhibitors. Incubating the enzyme with various organic solvents and detergents showed that the enzyme is activated at lower concentrations of solvents/detergents and remains significantly active even at high concentrations. The high tolerance of organic solvents may make this JHE enzyme useful in future applications as a synthetic catalyst.     

A partition assay for the simultaneous determination of insect juvenile hormone esterase and epoxide hydrolase activity

A partition assay was developed to measure insect juvenile hormone (JH) I and III metabolism in biological samples containing both JH esterase and JH epoxide hydrolase activity. The assay utilizes commercially available radiochain 3H-labeled JH as substrate and the selective JH esterase inhibitor 3-octylthio-1,1,1-trifluoro-2-propanone. JH partitions into an isooctane phase and the metabolites JH acid, JH diol, and JH diol-acid into aqueous methanol after incubation of JH substrate with inhibited and uninhibited sample. The assay provides a time- and cost-efficient alternative to the currently available thin-layer chromatography method for the measurement of JH esterase and epoxide hydrolase activity.     

An enzyme immunoassay for secretin

A sensitive and specific enzyme immunoassay for secretin was developed with the use of enzyme-labeled antigens. Synthetic porcine secretin and its carboxy-terminal fragments (residues 11-27 and 18-27) were conjugated with beta-D-galactosidase for use in the immunoassay, and the assay method with the latter fragment (residues 18-27) linked to beta-D-galactosidase was found to be the most sensitive. The minimum amount of secretin detectable by this method was 1-2.5 pg/assay. Serum levels of secretin after intravenous injection of the peptide in rats were determined by both the enzyme immunoassay and a commercial radioimmunoassay kit. The correlation coefficient between the levels measured by the two methods was 0.984. The enzyme immunoassay could detect immunoreactive secretin levels in normal human sera, giving a value of 16.9 +/- 2.2 pg/ml (mean +/- SE of six human subjects).     

Juvenile hormone esterases in diapause and nondiapause larvae of the European corn borer, Ostrinia nubilalis

Haemolymph levels of juvenile hormone esterase, 1-naphthyl acetate esterase, and juvenile hormone were measured in synchronously staged diapause and nondiapause larvae of the European corn borer, Ostrinia nubilalis. Juvenile hormone esterase levels were monitored using juvenile hormone I as a substrate while juvenile hormone titres were measured with the Galleria bioassay. Haemolymph of nondiapause larvae showed two peaks of juvenile hormone hydrolytic activity: one near the end of the feeding phase and a smaller one just prior to pupal ecdysis. These peaks of enzyme activity correlated well with the low levels of haemolymph juvenile hormone. Juvenile hormone titres were high early in the stadium then showed a second peak during the prepupal stage coinciding with low esterase activity. Diapause haemolymph had peak juvenile hormone esterase activity nearly 4 times the nondiapause level, reaching a peak near the end of the feeding phase. Diapause-destined larvae retained high juvenile hormone titres even during the rise of the high esterase levels. 1-naphthyl acetate esterase levels did not correlate with the juvenile hormone esterase levels in either the diapause or nondiapause haemolymph. High levels of 1-naphthyl acetate esterase activity were associated with moulting periods.     

Evolutionary Endocrinology of Juvenile Hormone Esterase in Gryllus Assimilis: Direct and Correlated Responses to Selection

Hemolymph juvenile hormone esterase (JHE) activity on the third day of the last stadium in the cricket, Gryllus assimilis, exhibited a significant response to selection in each of six replicate lines. Mean realized heritability was 0.26 +/- 0.04. The response was due to changes in whole-organism enzyme activity as well as to changes in the proportion of enzyme allocated to the hemolymph compartment. In vivo juvenile hormone metabolism differed between some lines selected for high vs. low enzyme activity. Only minimal differences were observed between lines with respect to hemolymph protein concentration or whole-cricket activity of juvenile hormone epoxide hydrolase, the other major JH-degrading enzyme. Dramatic correlated responses to selection, equal in magnitude to the direct response, were observed for JHE activity on each of three other days of the last juvenile stadium. In contrast, no correlated responses in JHE activity were observed in adults. This indicates that JHE activities throughout the last stadium will evolve as a highly correlated unit independent of adult activities and the evolution of endocrine mechanisms regulating juvenile development can be decoupled from those controlling adult reproduction. This study represents the first quantitative-genetic analysis of naturally occurring endocrine variation in an insect species.     

Synthesis of haptens and development of an indirect enzyme-linked immunosorbent assay for tris(2,3-dibromopropyl) isocyanurate

A competitive indirect enzyme-linked immunosorbent assay (ciELISA) was developed for detection of tris(2,3-dibromopropyl) isocyanurate (TBC). Polyclonal antibodies against TBC were raised from synthesized haptens and then screened against various coating antigens. After optimization of the immunoassay conditions, the linear range and IC₅₀ value of the assay were 0.30–100 and 5.17 μg/L, respectively, with little cross-reactivity (?2%). Recovery of various samples (water, serum, soil) was tested and the values ranged from 68% to 110%. This ciELISA was also applied to determine TBC in the riverside soil of the Liuyang River, and the results were compared with the data obtained by UHPLC–MS/MS. The experimental assay results confirmed that this proposed immunoassay is a specific, sensitive, and reliable method for determination and monitoring of TBC.     

Haemolymph juvenile hormone III esterase activity during adult life of female and male crickets,Gryllus bimaculatus de Geer (Ensifera,Gryllidae)

Using an in vitro method, juvenile hormone III degradation was studied in the plasma of adult female and male crickets, Gryllus bimaculatus. The primary route of juvenile hormone III metabolism in cricket haemolymph is ester hydrolysis to juvenile hormone III acid by juvenile hormone III esterase. Juvenile hormone III esterase activity in females' haemolymph is low just after imaginal moulting. A sharp peak of enzyme activity is observed on day 3 after emergence, and two subsequent peak values occur in older animals. Plasma juvenile hormone III esterase activity in freshly ecdysed males is also low, but increases rapidly thereafter. Another increase in enzyme activity is observed in older males. The fluctuations in juvenile hormone III esterase activity are discussed in correlation with changes in haemolymph volume, haemolymph protein content, haemolymph juvenile hormone III titer, and the rates of juvenile hormone III biosynthesis in vitro of the corpora allata.     

Degradation of a radiolabeled juvenile hormone analog using two insect species

A synthetic insect juvenile hormone analog (a juvenoid), ethylN-[2-[4-[[2,2-(ethylenedioxy)cyclohexyl]methyl]phenox]ethyl]carbamate, which has displayed high biological activity against different insect species and high stability under field conditions, was selected as a biologically active model compound for a study of a juvenile hormone analog degradation. The biologically active compound itself and its three diversely radiolabeled derivatives were applied to the flesh fly (Sarcophaga bullata) or the tsetse fly (Glossina palpalis), respectively. Monitoring of a fate of the applied juvenile hormone analog was carried out using a detection method of the radioactivity microdistribution within the whole insect body in combination with a radio high performance liquid chromatography (radio-HPLC), both of whole-body extracts made in different, but in advance scheduled, time intervals, and of extracts of insect excreta accumulated over an eight-day experiment.     

Analysis of the catalytic mechanism of juvenile hormone esterase by site-directed mutagenesis.

1. Juvenile hormone esterase (JHE) is a serine hydrolase selective for hydrolysis of the conjugated methyl esters of insect juvenile hormones. 2. We have investigated the mechanism of catalytic action of this enzyme by site-directed mutagenesis of the cloned enzyme and expression of the mutants in a baculovirus system. 3. A series of individual mutations of JHE were made to residues possibly involved in catalysis of juvenile hormones, and which are highly conserved in both esterases and lipases. 4. Mutation of the serine residue at position 201 to glycine (S201G), or aspartate 173 to asparagine (D173N), or histidine 446 to lysine (H446K), removed all detectable activity and these mutagenized enzymes were determined to be at least 10(6)-fold less active than wild type JHE. 5. Mutation of arginine 47 to histidine (R47H) decreased but did not abolish activity, with Km essentially unchanged at 66 nM for R47H compared to 34 nM for wild type JHE. 6. The kcat for R47H was decreased from 103 min-1 for wild type JHE to 1.9 min-1. 7. In addition, glutamate residue 332 was altered to glutamine (E332Q) and expressed in an Escherichia coli system. 8. This mutation was also found to remove all detectable activity. 9. From the results presented in this study and by comparison of JHE to other serine esterases and lipases, we predict that JHE possesses a Ser201-His446-Glu332 catalytic triad. 10. In addition, aspartate 173 and arginine 47 are essential for the efficient functioning of JHE.     

Identification and partial characterization of juvenile hormone esterase from cotton pest Dysdercus cingulatus

Juvenile hormone esterase (JHE), a selective enzyme that hydrolyzes the methyl ester of insect juvenile hormone plays an important role in regulating metamorphosis in nymphs as well as reproduction in adults. Studies on JH degradation provide insight into the possibilities of physiological disruption in the insects. In the present study, the JH degrading enzyme, JHE from the cotton pest Dysdercus cingulatus (Heteroptera) is characterized. Electrophoretic analysis of haemolymph during various developmental stages showed the JHE bands prominent only on the final day of 5th instar nymph, and the esterase substrate specificity confirmed the presence of JHE isoforms. In an attempt to clone cDNA of JHE gene from the final instar nymphs, mRNA isolated from fat bodies was coupled with JHE gene-specific primers and the cDNA was synthesized using RT-PCR. The PCR amplified cDNA showed the presence of JHE isoforms in D. cingulatus.