Juvenile hormone in Drosophila melanogaster: Identification and titer determination during development

Juvenile hormone (JH) III was identified in whole-body extracts of eggs, larvae, pupae, pharate adults and adults of Drosophila melanogaster. Titers of the hormone varied according to stage of development. Highest levels were found in post-feeding (wandering) larvae and adults; only low levels were found in feeding last-stadium larvae and in pupae. None of the other known JHs were detected (limit of detection ≈0.01 ng/g). These results are discussed in the light of the known physiological roles of JH in the development of Drosophila and other insects.     

Juvenile hormone acid O-methyltransferase in Drosophila melanogaster

Juvenile hormone (JH) acid O-methyltransferase (JHAMT) is the enzyme that transfers a methyl group from S-adenosyl-l-methionine (SAM) to the carboxyl group of JH acids to produce active JHs in the corpora allata. While the JHAMT gene was originally identified and characterized in the silkworm Bombyx mori, no orthologs from other insects have been studied until now. Here we report on the functional characterization of the CG17330/DmJHAMT gene in the fruit fly Drosophila melanogaster. Recombinant DmJHAMT protein expressed in Escherichia coli catalyzes the conversion of farnesoic acid and JH III acid to their cognate methyl esters in the presence of SAM. DmJHAMT is predominantly expressed in corpora allata, and its developmental expression profile correlates with changes in the JH titer. While a transgenic RNA interference against DmJHAMT has no visible effect, overexpression of DmJHAMT results in a pharate adult lethal phenotype, similar to that obtained with application of JH analogs, suggesting that the temporal regulation of DmJHAMT is critical for Drosophila development.     

Juvenile hormone esterase activity in the pupating and diapausing larvae of Sesamia nonagrioides

The development of the Mediterranean corn borer, Sesamia nonagrioides, under long-day (LD) photoperiod is associated with juvenile hormone (JH) decline and pupation in the 5th or 6th larval instar. The larvae grown under short-day (SD) conditions maintain a moderate JH titer and enter diapause during which they undergo several extra larval molts. Both types of larvae exhibit similar levels of juvenile hormone esterase (JHE) activity that increases in each instar during the period of low ecdysteroid titer and drops when the titer rises to a molt-inducing peak. A suppression of JHE activity within 24h after application of an ecdysteroid agonist suggests that the drop of activity is a rapid and possibly direct response to ecdysteroids or their agonist. Esterase inhibitor 3-octylthio-1,1,1-trifluoro-2-propanone (OTFP) suppressed more than 98% of the JHE activity without affecting pupation timing and adult development. The data indicate that JHE is not crucial for the switch between larval development, diapause, and metamorphosis in S. nonagrioides.     

Juvenile hormone titers,juvenile hormone biosynthesis,ovarian development and social environment in Bombus terrestris

The effects of the social environment and age on juvenile hormone (JH) and reproduction were investigated by measuring ovarian development, hemolymph levels of JH III, and rates of JH biosynthesis from the same individual bumble bees (Bombus terrestris). Differences in social environment were associated with differences in rates of JH biosynthesis, JH titer and ovarian development. Young queenless workers had a higher rate of JH biosynthesis, JH titer and ovarian development than queenright (QR) workers of similar age. Dominant workers in QR colonies had a higher rate of JH biosynthesis, JH titer and ovarian development than low ranked workers of similar size. There was a positive correlation between JH titer and ovarian development, but no correlation between rate of JH biosynthesis and ovarian development or between JH biosynthesis and JH titer. Both JH titer and rate of JH biosynthesis increased with age from emergence to 3 days of age, but 6-day-old workers, egg-laying workers, and actively reproducing queens had high JH titers and highly developed ovaries but low rates of JH biosynthesis. These results show that reproduction in B. terrestris is strongly affected by the social environment and the influence of the environment on reproduction is mediated by JH. Our data also indicate that the rate of JH biosynthesis measured in vitro is not a reliable indicator of JH titer or ovarian development in B. terrestris; possible reasons are discussed.     

Juvenile hormone increases mitochondrial activities in Drosophila cells

Treatment of Drosophila melanogaster Kc 0% cells with juvenile hormone (JH), which is of crucial importance to insect physiology, leads to a specific, early apparent increase in mitochondrial protein synthesis and to a later increase in cytochrome oxidase activity. This increase is at a maximum after a 12-h treatment with JH concentrations ranging from 10⁻¹² to 10⁻⁹ M. Electrophoretic analysis of the mitochondrial translation products shows that all the mitochondria but a stimulating effect by a simultaneously. We saw no hormonal effect on isolated mitochondria but a stimulating effect by a post-mitochondrial supernatant from induced cells, strongly suggests that the action of JH is indirect and may result from a nuclear effect. 2-D electrophoretic analysis of the total mitochondrial proteins shows that at least two polypeptides coded by nuclear genome are affected. Such results suggest that despite the absence of morphological cellular modification, JH does have an active influence on energy metabolism.     

Juvenile hormone and ovarian growth in Manduca sexta

In Manduca sexta the major size increase of ovarian follicles is accomplished by two processes: (1) vitellogenesis in which follicular volume and dry weight increase simultaneously, and (2) hydration in which absorption of water by the oocyte accounts for an 80% increase in volume prior to chorion formation. Vitellogenic growth occurs in both a slow and rapid phase. Rapid vitellogenic growth is initiated only by follicles of a threshold size (1 mm) and is a juvenile hormone (JH)-dependent event. In the absence of JH follicles grow to 1 mm and then degenerate.     

Juvenile hormone stimulation of ornithine decarboxylase activity during vitellogenesis in Drosophila melanogaster

Summary The activity of ornithine decarboxylase (ODC), the rate-limiting enzyme in polyamine biosynthesis, becomes elevated in intact female Drosophila melanogaster shortly after adult eclosion. This activity reaches a peak at 24 h following eclosion, and then drops to lower levels by 48 h. This pattern is not observed in males, consistent with the hypothesis that polyamine synthesis is involved in ovarian maturation in Drosophila. Abdomens isolated within 2 h of adult eclosion do not display elevated ODC activity or ovarian maturation. However, a 250-ng dose of the juvenile hormone analog methoprene (ZR-515) applied in acetone to these abdomens, recovers ovarian maturation and causes a 5–10 fold increase in enzyme activity over controls treated with acetone alone. The same dose of the inactive precursor methyl farnesoate caused no such increase, whereas a 500-ng dose of the newly discovered natural Drosophila JHB₃ stimulated a four-fold response. The response to methoprene was dose-dependent, showing stimulatory activity at a dose as low as 10 ng. This stimulation by JHA is rapid, occurring between 1 and 3 h following hormone treatment, reminiscent of JH induction of fat body vitellogenin synthesis in Drosophila. Elevated ODC activity appeared to be localized in the adult fat body. During embryogenesis, ODC activity remained undetectable until just prior to hatching, when a large increase was detected. We postulate that JH may, either directly or indirectly, regulate polyamine biosynthesis in vivo, and that this synthesis may be required for the production of macromolecules during Drosophila vitellogenesis or embryogenesis.Abbreviations JH juvenile hormone - JHA juvenile hormone analog - ODC ornithine decarboxylase - SAMDC S-adenosyl-methionine decarboxylase - JHB ₃ juvenile hormone III bisepoxide     

Basic aspects of ovarian development in Drosophila melanogaster

Modern views of the development and structural organization of the female reproductive system in Drosophila melanogaster are reviewed. Special emphasis is placed on the generation and development of follicles in the germarium and the interactions of germline and somatic cells in the egg chamber. Detailed consideration is given to the main events that ensure and regulate the transport of mRNA, proteins, and organelles from nurse cells to the oocyte in the germarium and at later stages of egg chamber development.     

Juvenile hormone controls egg laying and fertility in Drosophila virilis during starvation

Degradation of juvenile hormone and reproductive function during starvation and experimental increase of the juvenile hormone titer were studied in wild type and mutant D. virilis females incapable to respond to heat stress by changes in juvenile hormone metabolism and fertility. After 24-hour starvation, the females of both lines were characterized by a decreased level of juvenile hormone degradation, 24-hour delay of egg laying, increased egg laying within 3 h after the termination of starvation, and decreased fertility within three days. Application of exogenous juvenile hormone also led to a decreased level of its degradation and 24-hour arrest of egg laying. Experimental increase of the juvenile hormone titer before the beginning of starvation led to a sharply increased fertility (number of laid eggs and number of progenies) within the first 24 h after the termination of starvation. The dynamics of juvenile hormone degradation and of fertility were similar after starvation and upon application of the exogenous hormone. The role of juvenile hormone in the control of egg maturation and laying under stress conditions has been discussed.     

Juvenile hormone accelerates ovarian development and does not affect age polyethism in the primitively eusocial wasp,Ropalidia marginata

Juvenile hormone modulates post-imaginal reproductive division of labor in primitively eusocial species and promotes the production of queens (e.g., Polistes) while it modulates age polyethism and promotes the production of foragers in highly eusocial species (e.g., the honey bee). Ropalidia marginata is a primitively eusocial wasp that shows both post-imaginal regulation of reproductive division of labor as well as age polyethism. Hence, R.marginata is a particularly interesting model system to study the effect of juvenile hormone. We demonstrate here that a single, topical application of 100 micro g of juvenile hormone-III per female wasp accelerates ovarian development of wasps held in isolation. Similar application to wasps released back on to their natal nests has no effect on their rate of behavioral development as witnessed from the age of first performance of feed larva, build, bring pulp and bring food. We conclude therefore that in R.marginata, juvenile hormone has retained its function of modulating reproductive division of labor and has not acquired the function of modulating age polyethism.     

Juvenile hormone paces behavioral development in the adult worker honey bee

Behavioral development in the adult worker honey bee (Apis mellifera), from performing tasks inside the hive to foraging, is associated with an increase in the blood titer of juvenile hormone III (JH), and hormone treatment results in precocious foraging. To study behavioral development in the absence of JH we removed its glandular source, the corpora allata, in 1-day-old adult bees. The age at onset of foraging for allatectomized bees in typical colonies was significantly older compared with that of sham-operated bees in 3 out of 4 colonies; this delay was eliminated by hormone replacement in 3 out of 3 colonies. To determine the effects of corpora allata removal on sensitivity to changes in conditions that influence the rate of behavioral development, we used "single-cohort" colonies (composed of only young bees) in which some colony members initiate foraging precociously. The age at onset of foraging for allatectomized bees was significantly older compared with that of sham-operated bees in 2 out of 3 colonies, and this delay was eliminated by hormone replacement. Allatectomized bees initiated foraging at significantly younger ages in single-cohort colonies than in typical colonies. These results demonstrate that JH influences the pace of behavioral development in honey bees, but is not essential for either foraging or altering behavioral development in response to changes in conditions.     

Juvenile hormone and ovarian maturation in the diptera: A review of recent results

The roles of the JHs and ecdysteroids in ovarian maturation of adult Aedes aegypti, A. atropalpus, Musca domestica and Drosophila melanogaster have been characterized by comparing the effects of surgical (allatectomy, ovariectomy, decapitation, abdominal ligation), genetic, and nutritional (sugar feeding) manipulations. The results show that in all species JHs, or their mimics, and 20-hydroxyecdysone act in combination to stimulate ovarian maturation and vitellogenin (Vg) synthesis and that high doses of exogenous JHs, or their mimics, stimulate ovarian ecdysteroid synthesis, at least in A. aegypti, A. atropalpus, and D. melanogaster. Thus the gonadotropic regulatory mechanisms that exist in various dipteran species are more similar than originally suspected. In M. domestica, and possibly D. melanogaster, 20-hydroxyecdysone is present in the hemolymph at vitellogenic levels in newly emerged females and may persist in ovariectomized adults. If true for D. melanogaster, this could explain why topical application of JH, or its mimics, to ovariectomized, isolated abdomens is effective in stimulating Vg synthesis in the absence of the ovaries.     

Juvenile hormone and wing development during the last larval stage in aphids

The development of wingbud epidermis during the last larval stage of cabbage aphids (Brevicoryne brassicae) is described at the ultrastructural level, and compared with its development in juvenile hormone (JH) treated specimens. Cells in JH-treated aphids fail to undergo normal changes in shape and contain conspicuous bundles of microtubules. Cell division is also suppressed by JH treatment, but this alone cannot account for the juvenilised appearance of the adult wings. The possible mode of action of JH is discussed in terms of its observed effects on the abundance of microtubules within the cells.     

Juvenile hormone acts at embryonic molts and induces the nymphal cuticle in the direct-developing cricket

During embryogenesis of hemimetabolous insects, the sesquiterpenoid hormone, juvenile hormone (JH), appears late in embryogenesis coincident with formation of the first nymphal cuticle. We tested the role of embryonic JH by treating cricket embryos with JH III, or the JH-mimic (JHM) pyriproxifen, during early embryogenesis. We found two discrete windows of JH sensitivity. The first occurs during the formation of the first (E1) embryonic cuticle. Treatment with JHM prior to this molt produced small embryos that failed to complete the movements of katatrepsis. Embryos treated after the E1 molt but before the second embryonic (pronymphal) molt completed katatrepsis but then failed to complete dorsal closure and precociously formed nymphal, rather than pronymphal characters. This second sensitivity window was further assessed by treating embryos with low doses of JH III prior to the pronymphal molt. With low doses, mosaic cuticles were formed, bearing features of both the pronymphal and nymphal stages. The nymphal characters varied in their sensitivity to JH III, due at least in part to differences in the timing of their sensitivity windows. Unexpectedly, many of the JH III-treated embryos with mosaic and precocious nymphal cuticles made a second nymphal cuticle and successfully hatched. JH treatment also affected the growth of the embryos. By focusing on the developing limb, we found that the effect of JH upon growth was asymmetric, with distal segments more affected than proximal ones, but this was not reflected in misexpression of Distal-less or Bric-a-brac, which are involved in proximal-distal patterning of the limb.Edited by P. Simpson     

Juvenile hormone induced ovarian uptake of a female-specific blood protein in Oncopeltus fasciatus

An adult female-specific blood protein was demonstrated in Oncopeltus by gel electrophoresis. This protein is the major band in soluble yolk fractions. It is also present at substantial concentrations in the haemolymph of starved and diapausing adult females. Thus, the failure of the ovaries to form yolk under these conditions is characterized by an inability to remove vitellogenin from the blood. Application of a juvenile hormone analog (JHA) restored protein yolk deposition in starved and diapausing adult females. Whereas other blood proteins decreased no more than two-fold upon JHA treatment, the vitellogenin concentration decreased 20-fold in starved females. The vitellogenin concentration in the blood of diapausing females was not significantly affected by JHA, apparently because synthesis kept pace with ovarian uptake in this case.