The role of 20-hydroxyecdysone in housefly sex pheromone biosynthesis

Houseflies ovariectomized within 12 h after emergence do not produce (Z)-9-tricosene nor demonstrate the shift from alkene to alkane synthesis that is typcal of flies with developing ovaries. A single injection of 20-hydroxyecdysone at doses of 0.1 to 10 μg will induce the pattern in ovariectomized insects that is characteristic of flies with ovaries. Furthermore, this pattern persists for 3 days, but by 6 days after hormone injection, the synthesis of (Z)-9-tricosene stops and more alkenes are produced than alkanes. A post-hormone treatment time of 16 h was required before detectable amounts of (Z)-9-tricosene appeared on ovariectomized flies. Multiple injections of 20-hydroxyecdysone at doses of 50 ng into ovariectomized flies induced (Z)-9-tricosene synthesis and a shift in alkene to alkane synthesis. Thus, 20-hydroxyecdysone was able to act as an ovarian substitute in ovariectomized flies by stimulating pheromone synthesis.     

Inhibitory effects of oostatic hormone on ovarian maturation and ecdysteroid production in diptera

Extracts from post-vitellogenic ovaries of Musca domestica, Aedes atropalpus and Drosphila melanogaster were examined for the ability to inhibit the vitellogenic phase of growth in newly emerged A. atropalpus and D. melanogaster adult females. All extracts were inhibitory in A. atropalpus. D. melanogaster females were less sensitive than A. atropalpus females, only showing inhibition at a two-fold greater concentration of M. domestica extract. The titre of oostatic hormone in A. atropalpus ovaries correlated with the decline in ecdysteroid synthesis by these ovaries. A. atropalpus ovaries containing post-vitellogenic follicles were shown to inhibit ovarian ecdysteroid synthesis in vitro by vitellogenic ovaries of both A. atropalpus and D. melanogaster. D. melanogaster ovaries were not capable of eliciting such an inhibition in vitro, at least with the numbers of ovaries utilized in our experiments.     

Molecular analysis of nutritional and hormonal regulation of female reproduction in the red flour beetle, Tribolium castaneum

Female reproduction includes maturation of oocytes and the synthesis of yolk proteins (vitellogenin, Vg) in the fat body and their deposition into the oocytes. Our recent studies showed that juvenile hormone (JH) regulates Vg synthesis and 20-hydroxyecdysone (20E) regulates oocyte maturation in the red flour beetle (Tribolium castaneum). Here, we report on the role of nutritional signaling on vitellogenesis and oogenesis. Comparison of gene expression between fed and starved beetles by microarray analysis showed the up-regulation of genes involved in energy homeostasis and down-regulation of genes involved in egg production in the starved beetles. The RNA interference (RNAi) aided knock-down in the expression of genes involved in insulin and TOR signaling pathways showed that both these signaling pathways play key roles in Vg synthesis and oocyte maturation. Starvation of female beetles resulted in a block in Vg synthesis but not in the progression of primary oocyte development to the resting stage. Feeding after starvation induced Vg synthesis and the progression of primary oocytes from the resting stage to the mature stage. However, in the beetles where JH or 20E synthesis or action was blocked by RNAi, both Vg synthesis and oocyte maturation were affected suggesting that both these hormones (JH and 20E) and nutritional signaling and their cross-talk regulate vitellogenesis and oogenesis.     

Vitellogenin synthesis,processing and hormonal regulation in the tick,Ornithodoros parkeri (Acari:Argasidae)

This study was undertaken to determine the processing of vitellogenin (Vg) and the role of juvenile hormone (JH) in the regulation of vitellogenesis in the tick Ornithodoros parkeri. Ticks usually require a blood meal to induce vitellogenesis. However, we have shown that a pyrethroid, cypermethrin (CyM), can stimulate Vg synthesis in unfed Ornithodoros moubata females. Vg concentration and synthesis were analyzed by SDS-PAGE spotting-scanning and fluorography using [³⁵S]-methionine. Although unfed females show high titers of Vg in the hemolymph, this is not due to new synthesis. Vg synthesis stimulated by engorgement increases beginning on day 2 after engorgement and reaches a maximum level on day 8. Vg is synthesized in the fat body, secreted into the hemolymph and then processed and incorporated into the ovaries as vitellin. JH I, II and III, methoprene (JHA), and CyM were topically applied to unfed females and Vg synthesis analyzed on day 5 by fluorography. JH and JHA did not stimulate Vg synthesis. CyM stimulated Vg synthesis but not ovarian development. These preliminary results indicate that JH does not function in the regulation of vitellogenin synthesis in this species.     

Does ovarian ecdysone stimulate mosquitoes to synthesize vitellogenin?

Physiological amounts of 20-hydroxyecdysone do not initiate vitellogenin synthesis in unfed, non-vitellogenic mosquitoes. Injecting more than 10,000 times the physiological amount induced synthesis, but considerably less than was induced by a blood meal. A dose of 20-hydroxyecdysone which exceeded the physiological level only several hundred times, did not sustain vitellogenin synthesis, when blood-fed mosquitoes were ovariectomized just prior to injection. Transplanting ovaries from vitellogenic to non-vitellogenic females did not initiate synthesis of vitellogenin in the recipient. In vitro, neither 20-hydroxyecdysone nor the ovaries of vitellogenic females were able to induce synthesis of vitellogenin in non-vitellogenic fat bodies. These experiments suggest that ecdysteroid, released by the ovaries, does not initiate ovarian development in mosquitoes.     

Effects of zinc on programmed cell death of Musca domestica and Drosophila melanogaster blood cells

Programmed cell death (PCD) and phagocytotic activity of immune cells play a pivotal role in insect development. We examined the influence of Zn²⁺, an important element to fundamental biological processes, on phagocytosis and apoptosis of hemocytes in two fly species: Musca domestica and Drosophila melanogaster. Hemocytes were isolated from the third instar larvae of both species and treated for 3 h with zinc chloride solutions, containing 0.35 mM or 1.7 mM of Zn²⁺, and untreated as control. Phagocytotic activity of hemocytes was examined by flow cytometry after adding latex fluorescent beads to the medium, while apoptosis was evaluated by application of annexinV-FITC and pan-caspase-FITC inhibitor. Mitochondrial viability was determined by measuring resazurin absorbancy in the cell medium. The obtained results showed that Zn²⁺ increases phagocytosis and affects PCD of both species hemocytes but each in a different way. Zinc decreases fraction of annexin-positive hemocytes in M. domestica but increases it in D. melanogaster. The pan-caspase analysis revealed low and high activity of caspases in hemocytes of M. domestica and D. melanogaster, respectively. Zn²⁺ also decreased the viability of hemocyte mitochondria but only in D. melanogaster. It suggests that flies use different pathways of PCD, or that Zn plays a different role in this process in M. domestica than in D. melanogaster.     

Tebufenozide disrupts ovarian development and function in silkmoths

Adult development and production of up to 400 eggs within the pupal case of female silkmoths are both dependent on 20-hydroxyecdysone (20E), the steroid hormone of insects. When adult development was initiated with tebufenozide, the non-steroidal ecdysteroid agonist, instead of 20E, full development of all epidermal tissues like the wing was witnessed, but ovarian growth and egg formation was minimal. Administration of tebufenozide to female pharate adults caused disruption of the follicular epithelium, produced nurse cell damage, and inhibited oogenesis. Reduced ability to synthesize RNA and protein accompanied these tebufenozide induced morphological disturbances of the follicles. In vivo accumulation of vitellogenin (Vg) from the hemolymph was reduced in tebufenozide treated female ovaries as well as their ability to accumulate Vg in vitro. Determination of protein staining intensity and antibody reactivity of Vg pointed out that hemolymph Vg level remained fairly constant all through adult development whether induced by 20E or tebufenozide. Measurement of hemolymph volumes and hemolymph Vg levels of control and experimental animals allowed us to conclude that egg development involves the uptake of all the hemolymph proteins and not Vg alone. The loss of hemolymph that accompanies egg maturation was considerably reduced in tebufenozide initiated female pharate adults. 20E could not overcome ovarian growth inhibitory effects of tebufenozide. Dual mechanisms, one involving ecdysteroid antagonist action at the beginning of development, and the other unrelated to that function during heightened egg formation, are needed explain the biphasic inhibitory actions of tebufenozide on silkmoth ovaries.     

Induction of malate dehydrogenase and acetylcholinesterase by 20-hydroxyecdysone and heat shock in Drosophila ovaries

The molting hormone 20-hydroxyecdysone induces de novo synthesis of cytoplasmic malate dehydrogenase (cMDH) in Drosophila ovaries, but not mitochondrial MDH (mMDH). A second enzyme, acetylcholinesterase (AChE), was found to be heat shock inducible. It is known that MDH and AChE are, respectively, heat shock and 20-hydroxyecdysone inducible (see Introduction). Now it is also known that these enzymes are under dual regulation, with 20-hydroxyecdysone and heat shock being two stimuli which act either separately or in combination, to increase the specific activity of these enzymes. The response to 20-hydroxyecdysone and/or heat shock was found to occur in seven additional D. melanogaster sibling species. In this case, hormone and heat shock maximize the interspecific variability, something which could be acted by natural selection to establish physiological adaptations.     

Juvenile hormone regulation of vitellogenin synthesis in the red flour beetle,Tribolium castaneum

To elucidate the endocrine regulation of vitellogenin (Vg) synthesis in the red flour beetle, Tribolium castaneum, the titers of juvenile hormone (JH) and ecdysteroids in the whole body of female beetles were measured and compared with Vg mRNA levels. Juvenile hormone levels remained high while the ecdysteroid levels declined steadily during 1–5 days post adult emergence (PAE). The Vg mRNA levels began to increase by the end of 3rd day PAE and peaked by the 4th–5th day PAE. Gene expression profiling by microarray and quantitative real-time PCR analyses of RNA isolated from 1 to 5 days PAE beetles revealed that the genes coding for proteins involved in JH biosynthesis and action, but not those involved in 20-hydroxyecdysone (20E) biosynthesis and action had similar expression patterns as the genes coding for Vg. RNA interference (RNAi)-aided knock-down in the expression of these genes showed that both JH and 20E were required for Vg gene expression. However, Vg mRNA was induced by the application of JH III but not by the injection of 20E into the previtellogenic females. These data suggest that JH is required for Vg synthesis in the fat body and 20E influences Vg synthesis through its action on oocyte maturation.     

The insulin-like receptor gene expression in the tissues synthesizing gonadotropic hormones at sexual maturation of <Emphasis Type="Italic">Drosophila melanogaster</Emphasis> females

The insulin/insulin-like growth factor signaling pathway is involved in the regulation of the synthesis of insect gonadotropic hormones, juvenile (JH) and 20-hydroxyecdysone (20E). We carried out the immunohistochemical analysis of the insulin receptor (InR) expression in the corpus allatum (the JH-producing gland) and in the ovarian follicular cells (a site for the synthesis of 20E precursor, ecdysone) in the process of sexual maturation of D. melanogaster females and examined the influence of exogenous JH on the InR expression in these tissues. For the first time, it was demonstrated that InR was expressed in follicular cells and that its expression in corpus allatum and follicular cells of Drosophila females was stage-specific, i.e., the expression intensity in young females greatly exceeded that in mature individuals. We also found a negative feedback loop in the regulation of JH levels by the insulin signaling pathway in Drosophila adults: the experimental increase in the JH titers in young females dramatically reduced the InR expression intensity in corpus allatum and follicular cells.     

Genetic and Hormonal Regulation of Vitellogenesis in Drosophila

In Drosophila the female-specific yolk protein, or vitellogenin,is synthesized in the fat body. In D. melanogaster, vitellogenin,is first detected in the female hemolymph at the time of adulteclosion and in the ovaries 20 hours later, suggesting differentregulatory mechanisms for the processes of synthesis and uptake.Transplantations of pupal or immature adult ovaries into D.melanogaster adult males induce vitellogenin synthesis, implicatingan ovarian agent in the control of synthesis. Larval ovariesfail to stimulate synthesis. Female-sterile mutants with rudimentaryor previtellogenic ovaries synthesize and accumulate large quantitiesof vitellogenin in the hemolymph, but not in the ovaries. Transplantationof these rudimentary ovaries into males induces vitellogeninsynthesis, suggesting that the ovarian inducing agent does notoriginate from the germ cells. Treatment of the homozygous female-sterilemutants with juvenile hormone stimulates the uptake of vitellogeninby the ovary in some strains. This shows that juvenile hormoneplays a role in vitellogenin uptake. The potential importanceof Drosophila vitellogenesis for studies of gene regulationis discussed.     

Interendocrine control by 20-hydroxyecdysone of the corpora allata of Manduca sexta

A positive interendocrine control by 20-hydroxyecdysone regulates the corpora allata (CA) and thus the hemolymph titers of the juvenile hormones (JHs) during the fourth and fifth larval stadia of the tobacco hornworm, Manduca sexta. The effect of 20-hydroxyecdysone is exerted via the brain-corpora cardiaca (Br-CC), and the kinetics of stimulation by the hormone suggest that its control of the CA is indirect, possibly involving neural effectors. Co-incubation of precommitment CA with Br-CC resulted in a stimulation of the synthesis of JH I acid equivalent to that achieved by the incubation of brain-corpora cardiaca-corpora allata (Br-CC-CA) with 20-hydroxyedcysone, suggesting that a diffusible regulatory factor may be involved in the stimulation. During pharate pupal development, a close temporal relationship exists between the drop in the ecdysteroid titer and declines in CA activity and the JH hemolymph titer, suggesting that 20-hydroxyecdysone may now inhbit the CA. Incubations of day 6 Br-CC-CA with physiological concentrations of 20-hydroxyecdysone resulted in an apparent dose-dependent inhibition of CA activity. Thus in Manduca, 20-hydroxyecdysone may exert varying stage-specific interendocrine effects on the CA which direct the postembryonic development of this species.     

Genetic Evidence for Function of the bHLH-PAS Protein Gce/Met As a Juvenile Hormone Receptor

Juvenile hormones (JHs) play a major role in controlling development and reproduction in insects and other arthropods. Synthetic JH-mimicking compounds such as methoprene are employed as potent insecticides against significant agricultural, household and disease vector pests. However, a receptor mediating effects of JH and its insecticidal mimics has long been the subject of controversy. The bHLH-PAS protein Methoprene-tolerant (Met), along with its Drosophila melanogaster paralog germ cell-expressed (Gce), has emerged as a prime JH receptor candidate, but critical evidence that this protein must bind JH to fulfill its role in normal insect development has been missing. Here, we show that Gce binds a native D. melanogaster JH, its precursor methyl farnesoate, and some synthetic JH mimics. Conditional on this ligand binding, Gce mediates JH-dependent gene expression and the hormone''s vital role during development of the fly. Any one of three different single amino acid mutations in the ligand-binding pocket that prevent binding of JH to the protein block these functions. Only transgenic Gce capable of binding JH can restore sensitivity to JH mimics in D. melanogaster Met-null mutants and rescue viability in flies lacking both Gce and Met that would otherwise die at pupation. Similarly, the absence of Gce and Met can be compensated by expression of wild-type but not mutated transgenic D. melanogaster Met protein. This genetic evidence definitively establishes Gce/Met in a JH receptor role, thus resolving a long-standing question in arthropod biology.     

Dynamics of vitellogenin mRNA expression and changes in hemolymph vitellogenin levels during ovarian maturation in the giant freshwater prawn Macrobrachium rosenbergii

The dynamics of vitellogenin mRNA expression during ovarian maturation in Macrobrachium rosenbergii were examined by measuring hemolymph vitellogenin (Vg) levels and Vg mRNA expression in the hepatopancreas and ovary at differing reproductive stages in both intact and eyestalk ablated animals. Vg mRNA was quantified using real-time RT-PCR and hemolymph Vg was measured by enzyme immunoassay. In intact animals, Vg mRNA levels in the hepatopancreas and hemolymph Vg levels showed a gradual increase during the molt cycle concomitant with increasing gonadosomatic index (GSI), with Vg levels decreasing prior to ecdysis although GSI continued to increase. Eyestalk ablation was seen to accelerate Vg synthesis as well as ovarian maturation, although it did not alter the overall pattern of Vg expression. Vg mRNA expression was negligible in the ovary of both intact and eyestalk ablated animals, confirming that the hepatopancreas is the principal site of Vg synthesis in M. rosenbergii with the ovary being only a minor contributor. This study has shown that Vg synthesis is correlated to ovarian maturation and the molt cycle in M. rosenbergii.     

Sexual phenotype and vitellogenin synthesis in Drosophila melanogaster

An ovary transplanted from a Drosophila melanogaster female into a male will mature and form morphologically normal yolk-filled oocytes. Since it has been supposed that the yolk polypeptides come only from the female fat body, it was hypothesized that the implanted ovary induces the fat body of the male host to synthesize and secrete yolk polypeptides (YPs). To test this hypothesis, fat body preparations from females, untreated males, and males containing transplanted ovaries were cultured in vitro with ³⁵S-methionine and the medium was examined for the presence of newly labeled YPs. Female fat body secreted newly labeled YPs, but no freshly synthesized YPs were secreted by fat bodies from untreated males or from males containing transplanted ovaries. In vitro cultured ovaries, however, both from females and from male hosts did secrete newly synthesized YPs. Therefore, the YPs in an ovary that matured in a male come mainly from endogenous synthesis by the implanted ovary. To find whether males were responsive to the hormones that stimulate YP production in isolated female abdomens, we treated males with the juvenile hormone analogue ZR-515 and with 20-hydroxyecdysone. The latter, but not the former, was able to cause synthesis and secretion of three bands migrating precisely as YPs in SDS gels. Partial peptide digests of the 20-hydroxyecdysone-stimulated polypeptides in males showed them to be identical with those stimulated by 20-hydroxyecdysone or ZR-515 in isolated female abdomens and with the three YPs found in normal female hemolymph. Finally, YP synthesis was assayed in mutants that affect the phenotypic sex of a fly. It was found that flies bearing two X chromosomes and the mutations dsx, dsx^D, ix or three sets of autosomes continued to make YPs, but tra-3-pseudomales did not. These results suggest that the process of sex determination involves steps leading to synthesis of an ecdysteroid in females, which then activates synthesis of the YPs by the fat body. A hypothesis is suggested to explain the fact that two different hormones can stimulate YP synthesis and two different organs can synthesize YPs.     

In vivo stimulation of vitellogenesis in Aedes aegypti with juvenile hormone,juvenile hormone analogue (ZR 515) and 20-hydroxyecdysone

Decapitated blood-fed Aedes aegypti mosquitoes do not undergo normal oöcyte maturation. Topical application of 1.25 ng JH analogue (ZR 515) or 250 ng JH-I restored ovarian development in 70–80% of the treated females. The rate of vitellogenin synthesis in these animals was 80% of normal blood-fed controls.When ligated abdomens were treated, 125 pg ZR 515 or 12.5 ng JH-I were sufficient to restore ovarian development in 80% of the animals. The rate of vitellogenin synthesis in these animals was 70% of normal blood-fed controls. On the other hand, injection of 1.25 μg 20-hydroxyecdysone was needed to restore ovarian development and vitellogenin synthesis in decapitated and abdominally ligated females.These experiments indicate that JH concentrations closer to the physiological norm than 20-hydroxyecdysone, can restore ovarian development and vitellogenin synthesis in vivo.     

The effects of nutrition and methoprene treatment on ovarian ecdysteroid synthesis in Drosophila melanogaster

Radioimmunoassay of in vitro culture medium from ovaries of Drosophila melanogaster indicates that detectable ovarian ecdysteroid synthesis begins between 6 and 12 h after eclosion and reaches a peak between 24 and 30 h, when animals are reared at 25°C, 12 h photophase. Analysis of 24 and 72 h medium by a combination of high-performance liquid chromatography and radioimmunoassay demonstrates three ecdysteroid regions, two comigrating with known standards of ecdysone and 20-hydroxyecdysone and a third highly polar region containing one or more unidentified radioimmunoassay-active ecdysteroids. In 72 h medium the polar region comprises the majority of radioimmunoassay-active material while in 24 h medium the majority is in the ecdysone region. Provision of a nutritionally deficient diet to females at adult eclosion prevents the normal increase in vitellogenic-stage follicles and ovarian ecdysteroid synthesis. Methoprene treatment of such females stimulates a transient burst of ovarian ecdysteroid synthesis and the production of near normal numbers of vitellogenic oöcytes by 24 h, although by 48 h the number of vitellogenic oöcytes is less than normal.     

Sequence and function of lysosomal and digestive cathepsin D-like proteinases of Musca domestica midgut

Musca domestica larvae display in anterior and middle midgut contents, a proteolytic activity with pH optimum of 3.0–3.5 and kinetic properties like cathepsin D. Three cDNAs coding for preprocathepsin D-like proteinases (ppCAD 1, ppCAD 2, ppCAD 3) were cloned from a M. domestica midgut cDNA library. The coded protein sequences included the signal peptide, propeptide and mature enzyme that has all conserved catalytic and substrate binding residues found in bovine lysosomal cathepsin D. Nevertheless, ppCAD 2 and ppCAD 3 lack the characteristic proline loop and glycosylation sites. A comparison among the sequences of cathepsin D-like enzymes from some vertebrates and those found in M. domestica and in the genomes of Aedes aegypti, Drosophila melanogaster, Tribolium castaneum, and Bombyx mori showed that only flies have enzymes lacking the proline loop (as defined by the motif: DxPxPx(G/A)P), thus resembling vertebrate pepsin. ppCAD 3 should correspond to the digestive cathepsin D-like proteinase (CAD) found in enzyme assays because: (1) it seems to be the most expressed CAD, based on the frequency of ESTs found. (2) The mRNA for CAD 3 is expressed only in the anterior and proximal middle midgut. (3) Recombinant procathepsin D-like proteinase (pCAD 3), after auto-activation has a pH optimum of 2.5–3.0 that is close to the luminal pH of M. domestica midgut. (4) Immunoblots of proteins from different tissues revealed with anti-pCAD 3 serum were positive only in samples of anterior and middle midgut tissue and contents. (5) CAD 3 is localized with immunogold inside secretory vesicles and around microvilli in anterior and middle midgut cells. The data support the view that on adapting to deal with a bacteria-rich food in an acid midgut region, M. domestica digestive CAD resulted from the same archetypical gene as the intracellular cathepsin D, paralleling what happened with vertebrates. The lack of the proline loop may be somehow associated with the extracellular role of both pepsin and digestive CAD 3.