Accessory Gland as a Site for Prothoracicotropic Hormone Controlled Ecdysone Synthesis in Adult Male Insects

Insect steroid hormones (ecdysteroids) are important for female reproduction in many insect species and are required for the initiation and coordination of vital developmental processes. Ecdysteroids are also important for adult male physiology and behavior, but their exact function and site of synthesis remains unclear, although previous studies suggest that the reproductive system may be their source. We have examined expression profiles of the ecdysteroidogenic Halloween genes, during development and in adults of the flour beetle Tribolium castaneum. Genes required for the biosynthesis of ecdysone (E), the precursor of the molting hormone 20-hydroxyecdysone (20E), are expressed in the tubular accessory glands (TAGs) of adult males. In contrast, expression of the gene encoding the enzyme mediating 20E synthesis was detected in the ovaries of females. Further, Spookiest (Spot), an enzyme presumably required for endowing tissues with competence to produce ecdysteroids, is male specific and predominantly expressed in the TAGs. We also show that prothoracicotropic hormone (PTTH), a regulator of E synthesis during larval development, regulates ecdysteroid levels in the adult stage in Drosophila melanogaster and the gene for its receptor Torso seems to be expressed specifically in the accessory glands of males. The composite results suggest strongly that the accessory glands of adult male insects are the main source of E, but not 20E. The finding of a possible male-specific source of E raises the possibility that E and 20E have sex-specific roles analogous to the vertebrate sex steroids, where males produce primarily testosterone, the precursor of estradiol. Furthermore this study provides the first evidence that PTTH regulates ecdysteroid synthesis in the adult stage and could explain the original finding that some adult insects are a rich source of PTTH.     

Ovarian ecdysteroid biosynthesis and female germline stem cells

The germline stem cells (GSCs) are critical for gametogenesis throughout the adult life. Stem cell identity is maintained by local signals from a specialized microenvironment called the niche. However, it is unclear how systemic signals regulate stem cell activity in response to environmental cues. In our previous article, we reported that mating stimulates GSC proliferation in female Drosophila. The mating-induced GSC proliferation is mediated by ovarian ecdysteroids, whose biosynthesis is positively controlled by Sex peptide signaling. Here, we characterized the post-eclosion and post-mating expression pattern of the genes encoding the ecdysteroidogenic enzymes in the ovary. We further investigated the biosynthetic functions of the ovarian ecdysteroid in GSC maintenance in the mated females. We also briefly discuss the regulation of the ecdysteroidogenic enzyme-encoding genes and the subsequent ecdysteroid biosynthesis in the ovary of the adult Drosophila.     

Probable occurrence of ecdysteroid fatty acid esters in different classes of arthropods

We investigated the fate of injected [³H]ecdysone or [³H]20-hydroxyecdysone in various species of ticks, spiders, scorpions, myriapods, crustaceans and insects. Most of these arthropods were able to convert the ecdysteroids to esterase-labile metabolites with a very apolar behaviour in reverse-phase HPLC. Some of them have retention times similar to the apolar conjugates AP2 of the tick, Ornithodoros moubata, which have been identified recently as ecdysteroids esterified as C₂₂ with palmitic, stearic, oleic or linoleic acid [Diehl et al. (1985a) Int. J. invert. Reprod. Devl.8, 1–13]. Others are less apolar and could correspond to the AP1 from O. moubata. The possible function of these metabolites remains to be established. They could represent inactivation products and/or a hormone storage-form for embryos.     

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.     

Effects of precocenes on vitellogenesis in the adult female tick,Ornithodoros moubata (Acari: Argasidae)

Vitellogenin (Vg) concentrations in the hemolymph and ovarian development were studied inOrnithodoros moubata after treatment with precocenes 1 (P1) and 2 (P2). Precocene was dissolved in acetone or DMSO and topically applied to the dorsal surface of ticks: (1) at adult ecdysis; (2) 24 h before engorgement; (3) immediately after engorgement; and (4) 24 h after engorgement. Subsequently, P1 and P2 were dissolved in olive oil and injected through the gonopore into the body cavity 24 h after engorgement. Vitellogenin concentration was measured on days 5 and 10 after engorgement and ovarian development was scored on day 10, 20 or 30. Oviposition was also recorded and the average weight of eggs laid by females was determined. No differences in concentration of Vg in the hemolymph occurred between the control ticks and ticks treated topically or by injection with P1 and P2. Precocene did not suppress the synthesis of Vg inO. moubata. However, oviposition was reduced in ticks that survived repeated treatment with high doses of P2 dissolved in acetone.     

Ecdysone during ovarian development in Locusta migratoria

Considerable amounts of ecdysteroids are produced during each ovarian cycle in adult females of Locusta when vitellogenesis is almost completed. The hormonal molecules are synthesized at the end of the maturation of the terminal oöcytes during each cycle, at the time when vitellogenesis is almost completed. No synthesis takes place in the absence of ovarian development (allatectomy, ovariectomy), whereas extirpation of the prothoracic glands at the beginning of adult life does not affect ecdysteroid production. More than 95% of the total ecdysteroid content of female adults can be recovered from the ovaries. In vitro studies show that the ovaries produce ecdysteroids and convert labelled cholesterol into ecdysone. Microsurgical experiments indicate that this synthesis takes place in the follicle cells surrounding the oöcyte. The newly synthesized ecdysteroids do not enter massively into the blood, but pass into the oöplasm where they are progressively converted to polar compounds; as a result, at the end of each ovarian cycle, egg-laying corresponds to the disappearance of ecdysteroids from the female insects, the hormonal molecules can easily be recovered from the eggs. A gas chromatographic analysis coupled to mass spectrometry shows that the principal ecdysteroid synthesized by the adult females of Locusta is by far ecdysone. Ecdysterone, the paramount ecdysteroid of the larvae of Locusta, is not present in noticeable amounts in the female adult of this species.     

Cyanoprotein: Developmental stage,sex and diapause-dependent expression,and synthesis regulation by juvenile hormone in the bean bug,Riptortus clavatus

Cyanoprotein (CP) synthesis was studied in nymphal and nondiapause adult, diapause adult, and juvenile hormone (JH) treated adult bean bugs, Riptortus clavatus. Hemolymph collected from bugs injected with [³⁵S]-methionine was analyzed by native polyacrylamide gel electrophoresis (PAGE) and fluorography, and CP synthesis was also determined quantitatively by rocket immunoelectrophoresis of hemolymph and counting. In the nymphal stages synthesis of CP-1, 2, 3, and 4 (with CP-4 synthesis predominant) reached a maximum at mid-instar and was not detected at each ecdysis, so that the synthetic activity of CPs changed cyclically in each instar. During the nymphal stages CP synthesis showed the same pattern and level in both females and males, and both diapause and nondiapause oriented bugs. In the adult stage, however, CP synthesis differed in the two sexes and nondiapause or diapause conditions. In nondiapause males CP synthesis was not detected in the adult, but in nondiapause females CP (only CP-1) was synthesized through the reproductive stages. CP-1 accumulated in the egg yolk together with vitellogenin. In diapause adults (both females and males) CP-1 to 4 were synthesized at a very low rate for over 2 months and accumulated in the hemolymph. JH or JH analog (JHA) methoprene and also long day condition, which terminate diapause, switched the main CP synthesis CP-4 to CP-1 in females. CP synthesis in diapause males stopped after JH(A) treatment. The activities of CP synthesis, thus, changed in developmental stages, sexes, and diapause. This is an excellent system for study of specific gene expression and switching controlled by insect hormones and sex. © 1992 Wiley-Liss, Inc.     

QUANTITATIVE VARIATION OF ECDYSTEROIDS OF IXODID TICKS

Abstract  In order to explore the role of ecdysteroids in development and reproduction of ixodid ticks, we studied the quantitative variation of ecdysteroids in the hemolymph, synganglion, ovary and whole body of the female ixodid ticks, Dermacentor niveus and Haemaphysalis longicornis , before and after engorgement and oviposition by HPLC and RIA. The ecdysteroid content in eggs of these ticks was determined by HPLC. The results indicated that before engorgement the quantitative variation of ecdysteroids in the whole female body was not significant, but their levels increased rapidly after engorgement. The ecdysteroid titer in hemolymph was peaked on the 5th day after engorgement, which was one day prior to oviposition. It may be regarded as a singnal of oviposition. In the synganglion the peak of ecdysteroid level occurred also on the 5th day after engorgement. This is coincident with the secretory activity of neurosecretory cells of synganglion. From the 3rd day after engorgement until oviposition the ecdysteroid level in the ovary increased rapidly. Ecdysteroids were detected in eggs of H. longicornis too. They stem from ovary and accumulated with the process of embryonic development.     

A novel neuropeptide-endocrine interaction controlling ecdysteroid production in ixodid ticks.

Ixodid (hard) ticks are blood-feeding arthropods that require a blood meal to complete each stage of development. However, the hormonal events coordinating aspects of feeding and development are only poorly understood. We have delineated a new neuropeptide-endocrine interaction in the adult tick, Amblyomma hebraeum, that stimulates the synthesis of the moulting hormones, the ecdysteroids. In adult female ticks, ecdysteroid synthesis could be demonstrated in integumental tissue incubated in vitro with a synganglial (central nervous system) extract, but not in its absence. Stimulation by the synganglial extract is both time- and dose-dependent, but is completely abolished by trypsin treatment, suggesting that the activity is due to a peptide/protein. Integumental tissue ecdysteroidogenesis is also stimulated by elevation of the cAMP concentration using forskolin and 3-isobutyl-l-methyl-xanthine, or by 8-bromo-cAMP. This suggests the involvement of at least a cAMP second messenger system in the neuropeptide-ecdysteroidogenesis axis, without precluding a role for other second messengers as well. Despite involving a quite different steroidogenic tissue, the foregoing system has some parallels with the known prothoracicotropic hormone (neuropeptide)-prothoracic gland endocrine axis of insects.     

Ecdysteroids during oögenesis in the ovoviviparous cockroach Nauphoeta cinerea

By using thin-layer chromatography and high-pressure liquid chromatography combined with radioimmunoassay as well as gas chromatography-mass spectrometry we have identified and quantified ecdysteroids in ovaries and haemolymph of adult female Nauphoeta cinerea. Our analyses demonstrate the presence of ecdysone and 20-hydroxyecdysone, the latter being clearly predominant in all stages investigated. Titre determinations of free ecdysteroids in ovaries show that the 20-hydroxyecdysone concentration is highest (approximately 400 ng/g) at the beginning of chorion formation, suggesting an involvement in this process. Towards ovulation, the titre of free ecdysteroid drops and is low in the newly ovulated egg case. Measurement of immunoreactive highly polar products demonstrates that their concentration remains on a low level throughout the oöcyte maturation period; hydrolysis experiments with Helix pomatia enzymes reveal that, compared to the free ecdysteroids in the ovary, only small quantities of ecdysteroids are present as Helix hydrolysable conjugates. If one compares the quantities of free ecdysteroids in the ovary with those in the haemolymph it becomes apparent that the concentration in the haemolymph is about 10 times lower than that in the ovary.In vitro incubation of follicle cells from oöcytes at stages around chorion formation reveals that these cells are able to produce ecdysone and 20-hydroxyecdysone, and incubation with [³H]-ecdysone demonstrates that ecdysone is efficiently converted to 20-hydroxyecdysone in a stage-dependent manner. These observations strongly suggest that the follicle cells are the site of ecdysteroid biosynthesis and of C-20-ecdysone hydroxylation.A comparison of these findings with observations made of other insects such as locusts and mosquitoes demonstrates significant differences in quality, composition, titre fluctuation and distribution of ecdysteroids in adult females from different species and suggests that these ecdysteroids might fulfil multiple and various biological functions.     

硬蜱中蜕皮激素含量的变化(英语)

为阐明蜕皮激素在硬蜱发育和生殖中的作用,用高效液相色谱法(HPLC)和放射免疫测定法测定了银盾革蜱和长角血蜱中饱血和产卵前后雌虫整体、血淋巴、合神经节及卵巢中蜕皮激素含量的变化.此外,还用HPLC测定了长角血蜱的卵和幼虫中蜕皮激素的含量.结果表明:在饱血前雌虫整体中蜕皮激素含量的变化不大,饱血后迅速增加.血淋巴中的蜕皮激素在饱血后第5天(即产卵前1天)达到高峰,可做为产卵的信号.合神经节中蜕皮激素含量的高峰在饱血后第5天,与血淋巴中高峰出现的时间一致,这与神经分泌细胞的分泌活性变化相吻合.从饱血后第3天起,卵巢中蜕皮激素含量增加很快,直到产卵时止,在长角血蜱的卵中也测到α-蜕皮素,来源于卵巢,随胚胎发育进程其含量逐渐增加.卵产出后第4天到第12天,蜕皮激素的含量增加十几倍.     

Enzymes for ecdysteroid biosynthesis: their biological functions in insects and beyond

Steroid hormones are responsible for the coordinated regulation of many aspects of biological processes in multicellular organisms. Since the last century, many studies have identified and characterized steroidogenic enzymes in vertebrates, including mammals. However, much less is known about invertebrate steroidogenic enzymes. In the last 15?years, a number of steroidogenic enzymes and their functions have been characterized in ecdysozoan animals, especially in the fruit fly Drosophila melanogaster. In this review, we summarize the latest knowledge of enzymes crucial for synthesizing ecdysteroids, the principal insect steroid hormones. We also discuss the functional conservation and diversity of ecdysteroidogenic enzymes in other insects and even non-insect species, such as nematodes, vertebrates, and lower eukaryotes.     

Signaling Pathways for Ecdysteroid Hormone Synthesis in Crustacean Y-organs

The Y-organs of crustaceans secrete steroid hormones (ecdysteroids)which are responsible for molting and regeneration. The Y-organsin turn are controlled (negatively) by the eyestalk peptide,molt-inhibiting hormone (MIH). We are exploring the signalingpaths in Y-organ cells that lead to ecdysteroid generation whenactivated by the absence of MIH. The objective is to understandthe connections between MIH-receptor occupancy and the depressionof genes that express ecdysteroidogenic enzymes. MIH actionis mediated by a rise in cyclic 5' adenosine monophosphate (cAMP);cGMP also is involved in some species. That a cyclic nucleotideis a central regulatory component is indicated by the followingselection of results: dibutyryl cAMP, activators of adenylylcyclase or inhibitors of cyclic nucleotide phosphodiesteraseeach mimic the inhibitory action of MIH. Cyclic AMP inhibitsthe receptor-mediated uptake of cholesterol (the obligate ecdysteroidprecursor), by decreasing the number of receptor sites for thelipoprotein carrier of cholesterol. MIH via cAMP also depressesde novo protein synthesis upon which ecdysteroidogenesis dependsin part. A role for cellular free calcium (Ca⁺⁺) is indicatedby the ability of Ca⁺⁺ (or a Ca⁺⁺ionophore) to stimulate ecdysteroidproduction,thereby antagonizing MIH action. The mechanism involvesloweringcAMP levels by enhancing phosphodiesterase activity via calmodulin,not by affecting adenylate cyclase activity. Ca⁺⁺ counters thesuppressive action of MIH or cAMP on protein synthesis. Consistentwith the MIH-Ca⁺⁺ mutual antagonism, MIH increases Ca⁺⁺ effluxfrom ⁴⁵Ca-preloaded cells. Y-Organ cells contain protein kinaseC (PKC), the activation of which increases ecdysteroid production.PKC activity is not affected by MIH, but is stimulated by Ca⁺⁺.These and related experiments indicate that the PKC-activatedincrease in ecdysteroidogenesis involves events downstream fromthe production of cAMP and the degradation of cAMP by Ca⁺⁺.In relation to the latter, specific and non-specific inhibitorsof protein tyrosine kinases (PTK) inhibit ecdysteroid synthesisdose-dependently. The relationship of PTK with MIH-cAMP andCa⁺⁺-PKC systems is under study.     

Effect ofDermacentor albipictus (Acari: Ixodidae) on blood composition,weight gain and hair coat of moose,Alces alces

The physiological effects of the winter tick,Dermacentor albipictus, on moose,Alces alces, were investigated. Blood composition, weight gain, food intake and change in the hair coat of moose calves, four infested withD. albipictus larvae, and eight uninfested, were monitored. Infested moose groomed extensively, apparently in response to feeding nymphal and adult ticks, and developed alopecia. Other clinical signs included: chronic weight loss, anemia, hypoalbumenemia, hypophosphatemia, and transient decreases in serum asparate transaminase and calcium during the period of nymphal and adult female tick engorgement. Infested animals did not become anorexic. Two moose with severe hair loss had increases in gamma globulin shortly after the onset of female tick engorgement. Results suggest that alopecia is associated with tick resistance. Animals that groom and develop hair loss likely carry fewer ticks and therefore suffer less severely from blood loss.     

Possible involvement of ecdysteroids in embryonic diapause of Locusta migratoria

In the Ibaraki population (Japan) of Locusta migratoria, adult locusts produce diapause eggs under short-day (SD) conditions and non-diapause eggs under long-day (LD) conditions. The identity and titre of ecdysteroids in the ovaries and eggs from LD and SD adult females were investigated by RIA/HPLC. Maternal ecdysteroids accumulated in the developing ovaries represented about 90% polar conjugates, 5% free ecdysteroids and 5% non-hydrolyzable metabolites. Before oviposition the quantity of ecdysteroids reached 29.8±1.85 ng 20-hydroxyecdysone equiv. per mg tissue ovaries from LD females and 13.1±3.55 ng 20E equiv./mg in ovaries from SD females. The sum of RIA-positive materials in newly laid eggs was more than three times higher in non-diapause eggs than in diapause eggs. Ecdysteroids present in egg extracts comprised about 85% polar conjugates, 5% free ecdysteroids and 10% non-hydrolyzable metabolites. On the other hand, after diapause termination the amount of ecdysteroids increased drastically. Also, the composition of ecdysteroids differed from that observed during diapause and became comparable to that of non-diapause eggs. The significant differences in the ecdysteroids between non-diapause and diapause eggs may suggest the possible involvement of these compounds in the control of embryonic diapause of this locust.