Ecdysteroid agonist and antagonist activities in species of the Solanaceae

Previously, it has been shown that certain withanolides from Iochroma gesnerioides (Solanaceae) possess ecdysteroid antagonistic activity. Phytoecdysteroids (agonists) are widely distributed in the plant world, but solanaceous species have not been extensively examined for their presence. We have now surveyed 128 species of solanaceous plants for the presence of ecdysteroid agonist and antagonist activities using the Drosophila melanogaster B(II) cell line bioassay. Only weak antagonistic activity was associated with a few of the methanolic extracts, including those from species known to contain high levels of withanolides. Therefore, the major withanolides are inactive per se, but they may be activated after ingestion by invertebrate predators. Several extracts possessed ecdysteroid agonist activity as a consequence of the presence of phytoecdysteroids. Phytoecdysteroid-accumulating species are at least as common in the Solanaceae as they are in plants in general. Preliminary characterization of the identities of the phytoecdysteroids present in the most active extracts has been performed by hplc separations on normal- and reversed-phase systems in conjunction with ecdysteroid-specific radioimmunoassay and bioassay. Each of the phytoecdysteroid-accumulating species examined (Browallia speciosa, Nierembergia hippomanica var violacea, N. solanacea and Solanum nigrum) contain a cocktail of ecdysteroids, of which 20-hydroxyecdysone and polypodine B (5beta,20-dihydroxyecdysone) are major components.     

Ecdysteroids in females and eggs of the Ixodid tick Amblyomma hebraeum

Summary

A mated Amblyomma hebraeum female will engorge on a host for about 8 days before detaching and beginning the maturation of its single egg batch which is laid during a period of about 30 days. The feeding period is characterized by an important synthesis of endocuticular material occurring before the rapid feeding phase. This latter phase, correlated with an enormous weight uptake, shows an increase of ecdysteroid levels measured in the whole animal by RIA. However, the hemolymphatic levels of ecdysteroids remain very low (12 pg 20-hydroxyecdysone equivalent (20-OH-E eq.) per μ1. Within 4 days after detachment, the salivary glands degenerate. Ecdysteroid levels in the whole animal continue to increase, reaching high values (about 500 ng 20-OH-E eq./tick) at the moment of oviposition which begins 10–14 days after dropping. During the same period, hemolymphatic ecdysteroid levels increase, rising to a peak (600 pg 20-OH-E eq./μ1) 1 day prior to the beginning of oviposition. Then, the levels decrease and stabilize around 250 pg 20-OH-E eq./μl during egg-laying. Freshly laid eggs contain large amounts of ecdysteroids (2744 pg 20-OH-E eq./mg).

20-Hydroxyecdysone and ecdysone have been found to be the major free ecdysteroids in hemolymph, ovaries and eggs (verified by the HPLC-RIA technique and GC-MF of silylated HPLC fractions). Helix juice (or esterase) labile ecdysteroid conjugates do not seem to be present to any noticeable extent in hemolymph, ovaries and eggs.     

Screening plants of European North-East Russia for ecdysteroids

A strategy for screening plants for ecdysteroid content based on the ‘positive tribe’ principle is developed and applied, for the first time, to screen the flora of European North-East Russia to identify species which accumulate ecdysteroids; 700 samples representing 411 species from 380 genera of 82 families were investigated. It is established that species with moderate to high ecdysteroid content (detectable with the Drosophila melanogaster B_II cell bioassay) are not numerous (4% of all screened species). They are found in 14 families of different kinship level. Within families, ecdysteroid-containing plants form groups of closely cognate species (within certain tribes and/or genera); most ecdysteroid-containing species in this study were present in the tribe Cardueae (within the Asteraceae) and in the tribe Lychnideae (within the Caryophyllaceae). Radioimmunoassay, using an ecdysteroid-specific antiserum, allowed us to detect trace amounts of phytoecdysteroids (0.1–0.5 μg ecdysone equivalents/g plant matter) below the threshold detectable by the insect ecdysteroid receptor-based bioassay. It was found that such trace amounts of ecdysteroids are typical of many of the other plant species tested. We propose that a positive response in the bioassay is an appropriate criterion for detecting species with ecdysteroid content sufficient for protecting the plant against non-adapted phytophagous insects. Analysis of the geographical distribution of ecdysteroid-containing species (as detected by the bioassay) reveals that many of them belong to the southern or polyzonal latitudinal groups. This supports the impact of ecological–geographical factors upon ecdysteroid distribution in plants.     

A possible role of 20-hydroxyecdysone in embryonic development of the silkworm Bombyx mori

It has been well established that eggs of insects, including those of the silkworm Bombyx mori, contain various ecdysteroids and the amounts of these ecdysteroids fluctuate during embryonic development. In order to know the function of egg ecdysteroids in embryonic development of B. mori, we examined the biological activities of various egg ecdysteroids by in vitro ligand-binding assay and bioassay using B. mori eggs. First, using the ecdysteroid receptor of B. mori (BmEcR-B1/BmUSP heterodimer) prepared by yeast and Escherichia coli expression systems, the interaction between the ecdysteroid receptor and various egg ecdysteroids of B. mori was analyzed. The relative binding affinities of egg ecdysteroids to the BmEcR-B1/BmUSP heterodimer decreased in the order of 20-hydroxyecdysone > 2-deoxy-20-hydroxyecdysone > 22-deoxy-20-hydroxyecdysone > ecdysone > 2-deoxyecdysone > ecdysone 22-phosphate. Next, several egg ecdysteroids of B. mori were injected into the prospective diapause eggs, which show a very low level of free ecdysteroids at the onset of embryonic diapause (gastrula stage). Approximately 7% of them (P < 0.002, chi(2)-test) developed beyond the gastrula stage without entering diapause by the injection of 20-hydroxyecdysone (25 ng/egg). In contrast, the injection of other ecdysteroids was not effective in inducing embryonic development. These results suggest that 20-hydroxyecdysone, via the ecdysteroid receptor, is responsible for the developmental difference between diapause and non-diapause in B. mori embryos. Furthermore, it was suggested that continuous supply of 20-hydroxyecdysone may be required to induce embryonic development.     

Haemolymph ecdysteroid titres during larval-adult development in Rhodnius prolixus: Correlations with moulting hormone action and brain neurosecretory cell activity

A haemolymph ecdysteroid titre of the fifth (last)-larval instar of the hemipteran, Rhodnius prolixus has been determined by radioimmunoassay. During the last-larval stadium the ecdysteroid titre increases from a negligible level in the unfed insect to a detectable level within minutes following a blood meal. The titre reaches a plateau of ～50–70 ng/ml at 3–4 hr and this level is maintained until day 5–6, the time of the head-critical period in Rhodnius. At the head-critical period the titre begins to increase again, this time dramatically, reaching a peak of ～ 3500 ng/ml at day 13. From day 14 to ecdysis (day 21) the titre declines to a low level, ～ 30 ng/ml. Basal levels of ecdysteroids, ～ 15 ng/ml, were detectable in young adult males and females. A survey of haemolymph volumes during the last-larval instar indicates that the changes in the ecdysteroid titre reflect changes in the rates of ecdysteroid synthesis, and not changes in haemolymph volume. Excretion of ecdysteroids varies systematically during the instar, suggesting that control of ecdysteroid excretion may be important in regulation of the haemolymph titre. Qualitative analysis of the haemolymph ecdysteroid RIA activity revealed the presence of only ecdysone and 20-hydroxy-ecdysone. For the large peak preceding larval-adult ecdysis, 20-hydroxy-ecdysone was the predominant hormone. These results indicate that there may be two periods of release of prothoracicotropic hormone (PTTH) from the brain in Rhodnius, one immediately following the blood meal and the second on day 5 or 6. The significance of these times of PTTH release is discussed in relation to classical evidence of the timing of moulting hormone action, the response of target tissues, and with more recent findings on the timing of release of neurosecretory material from the brain of Rhodnius during moulting.     

Ecdysteroid fluctuations in adult Drosophila melanogaster caused by elimination of pupal reserves and synthesis by early vitellogenic ovarian follicles

Radioimmunoassay (RIA) of whole body extracts of Drosophila melanogaster males and females demonstrates that at eclosion all individuals contain high levels of ecdysteroid. Highly polar ecdysteroids (presumably metabolites) in the meconium represent approximately half of the total ecdysteroid RIA-activity present at this time and are subsequently eliminated. Ecdysteroids remaining after the elimination of the meconium are also highly polar as shown by reverse-phase high pressure liquid chromatography (RP-HPLC). The amount of ecdysteroid RIA-activity found in whole body extracts declines in both sexes until 18 h post-eclosion when levels begin to increase in the female and drop to undetectable levels in the male. In the female the ovaries are the major source of ecdysteroid. The increase in whole body ecdysteroid in the female coincides with the initiation of ovarian ecdysteroid production and accumulation. Topical application of methoprene, a juvenile hormone (JH) analog, stimulates ovarian ecdysteroid synthesis in apterous-ts 78j (ap^{ts 78j}), a temperature-sensitive juvenile hormone-deficient mutant, corroborating previous results suggesting a role of juvenile hormone in ovarian ecdysteroid production. Stage 8–9 follicles, whose development is juvenile hormone dependent, are shown to be the most active in ecdysteroid production. The regulatory potential of these stages is discussed.     

Physiological approach to the onset of receptivity in female Acheta domesticus : I. Role of the corpora allata and ovaries

During the 32 hr following the imaginal moult, all female Acheta domesticus actively or passively refuse male courtship; they are unreceptive. As of 32 hr, the most precocious females become receptive and accept mating. At this time, juvenile hormone (JH III) synthesized by corpora allata (CA) is already detectable in hemolymph, while ecdysteroids (synthesized by ovaries) begin increasing at 48 hr. JH III and ecdysteroid levels in hemolymph were measured by RIA. After allatectomy and/or ovariectomy, all females became receptive, thus showing that CA and/or ovaries are not essential to the onset of receptivity. However, male courtship is longer for allatectomized females; in ovariectomized females, mating is delayed.     

Identification of the molting hormone of the sweet potato (Bemisia tabaci) and greenhouse (Trialeurodes vaporariorum) whitefly

In order to identify the whitefly molting hormone, whole body extracts of mature 4th instar and newly formed pharate adult Bemisia tabaci (Biotype B) and Trialeurodes vaporariorum were prepared and subjected to reverse phase high performance liquid chromatography (RPHPLC). Ecdysteroid content of fractions was determined by enzymeimmunoassay (EIA). The only detectable ecdysteroids that were present in significant amounts in whitefly extracts were ecdysone and 20-hydroxyecdysone. The concentrations of 20-hydroxyecdysone in B. tabaci and T. vaporariorum extracts, respectively, were 40 and 15 times greater than the concentrations of ecdysone. The identity of the two ecdysteroids was confirmed by normal phase high performance liquid chromatography (NPHPLC). When ecdysteroid content of RPHPLC fractions was assayed by radioimmunoassay (RIA), small amounts of polar ecdysteroids were also detected indicating that these ecdysteroids have a very low affinity for the antiserum used in the EIA. Ecdysteroid at 10.4 mM administered by feeding stimulated 2nd instar whitefly nymphs to molt. Based on our results, it appears that 20-hydroxyecdysone is the whitefly molting hormone.     

The role of the Y-organ and cephalic gland in ecdysteroid production and the control of molting in the crayfish,Orconectes limosus

Summary The production of ecdysteroids (monitored by RIA) by Y-organs and cephalic glands in vitro was measured and hemolymph ecdysteroid levels were determined in the crayfish,Orconectes limosus, both after eyestalk ablation and as a function of time during natural premolt. Y-organ synthesis of ecdysteroid increased in parallel with a rise in hemolymph ecdysteroid concentrations under both conditions, peaking in substage D₂ of premolt. Y-organ ecdysteroid output after eyestalk ablation was 3–4 times higher. Thus, removal of the inhibiting system of the eyestalk effectively removes not only the principal control but also any modulation of ecdysteroid secretion by the Y-organs. Ecdysteroid levels remained low in Y-organ-ectomized crayfish, although premolt was initiated in some animals. The cephalic gland does not appear to contribute to the regulation of molting inOrconectes limosus. The Y-organs, on the other hand, are a principal source of ecdysteroids which regulate the major synthetic activities of premolt.     

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.     

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.     

Distribution and levels of phytoecdysteroids in plants of the genus Silene during development

The purpose of the present work is the study of ecdysteroid distribution in annual and perennial Silene species during development. The experimental approach included the measurement of ecdysteroid levels in different plant organs and an evaluation of the contribution of individual organs to the total amount of 20-hydroxyecdysone (20E) produced by the plant. The highest concentrations of 20E were observed in reproductive organs. High levels were also found in leaves with lower levels in stems. Maximal ecdysteroid content for aerial parts was observed during periods of intense growth: at budding or flowering in annual species, and during vegetative growth or budding in perennial species. The contribution of the different organs to the overall ecdysteroid content changes during plant development. Leaves represent the main part of plant mass and 20E content. Reproductive organs represent a relatively small mass, but they contain high concentrations of ecdysteroids and, in terms of the amount of 20E they contain, their contribution is equal to that of stems. Arch.     

Possible involvement of ecdysteroids in photoperiodically induced suppresion of ovarian development in a Japanese strain of the migratory locust,Locusta migratoria

In a Japanese population of Locusta migratoria, adult females become reproductively inactive under crowding and long days (LD) and reproductively active under crowding and short days (SD). The identity and titre of ecdysteroids in the haemolymph and ovaries from adult females reared under SD and LD were investigated by RIA/HPLC. The effects of exogenous juvenile hormone (JH) III treatments on the termination of such reproductive arrest and ecdysteroid contents in LD females were also examined. In general, ecdysteroid titres in both haemolymph and ovaries were significantly higher in reproductively active SD females than in reproductively inactive LD females. A clear difference was also observed in oocyte growth between SD and LD individuals. JH III applications (three consecutive topical applications, 150 μg per insect per day from day 3) stimulated ovarian development in LD females and significantly increased the haemolymph and ovarian ecdysteroids to a level comparable to that of reproductively active SD adult females.     

Ecdysteroids in relation to adult development and reproduction in female Rhipicephalus appendiculatus (Acari; Ixodidae)

In view of the paucity of information on ecdysteroids during tick development, the profiles of the free ecdysteroids, together with the polar and apolar conjugates have been established by radioimmunoassay during development of adult females of the hard tick, Rhipicephalus appendiculatus. The free ecdysteroid titre increased sharply to a peak approximately 3 days post-engorgement, a day preceding beginning of oviposition. This titre decreased to a low level, which was maintained throughout oviposition. Although the titre of polar ecdysteroid conjugates was appreciably less than that of the free ecdysteroids during the peak, the general profile of such conjugates was similar to that of the free ecdysteroids. In the case of the apolar ecdysteroid conjugates, the titre increased simultaneously with production of free ecdysteroids, but was maintained at a relatively high level until the end of oviposition, when it sharply declined. The apolar conjugates were the predominant form of ecdysteroids present during most of oviposition. The free ecdysteroids as well as the polar and apolar conjugates were shown to contain 20-hydroxyecdysone accompanied by smaller amounts of ecdysone by high-performance liquid chromatography-RIA (HPLC-RIA) and gas chromatography/mass spectrometry (selected ion monitoring; GC/MS [SIM]). © 1996 Wiley-Liss, Inc.     

The identification and titres of conjugated and free ecdysteroids in developing ovaries and newly-laid eggs of Schistocerca gregaria

Ecdysteroid levels throughout ovarian development and in newly-laid eggs of S. gregaria have been determined. A simple method for the separation of free and conjugated ecdysteroids is described. Both free and polar conjugated ecdysteroids are present at the end of oögenesis and in newly-laid eggs, but the polar conjugated ecdysteroids always predominate; 95% of the total ecdysteroid in newly-laid eggs is in the conjugated form. Ecdysone, 2-deoxyecdysone and 20-hydroxyecdysone have been fully characterized from both the ‘free’ and ‘conjugated’ fractions. The presence of traces of 26-hydroxyecdysone in the ‘conjugate’ fraction was indicated by HPLC analyses. The levels of ecdysteroid released from the conjugates of newly-laid eggs were 35 μg/egg pod (44 μg/g wet weight) for ecdysone, 16 μg/egg pod (19.4 μg/g) for 2-deoxyecdysone and 5 μg/egg pod (6.1 μg/g) for 20-hydroxyecdysone. The level of free ecdysone found in newly-laid eggs was 2 μg/egg pod (2.6 μg/g).     

A possible role of ecdysteroids in pre-ecdysial tanning in larvae of Sarcophaga bullata (Diptera: Sarcophagidae)

The levels of ecdysteroids in Sarcophaga bullata were determined by radioimmunoassay (RIA) from the time of larviposition (0 hr) to after the 2nd ecdysis and from late larval to pupal development. Two distinct peaks of ecdysteroid activity were recorded mid-way through the first and second stadia (14 and 34 hr) and two smaller peaks occurred a few hours prior to each ecdysis. A large release of ecdysteroids occurred from 8 hr before and up to 18 hr after formation of the white prepupa. This peak initiated the formation of the prepupa, the tanning of the puparium, larval/pupal apolysis and secretion of the pupal cuticle.Assays for the cuticle tanning hormone, bursicon, in pre-ecdysial larvae were not positive and a possible role for ecdysone in pre-ecdysial tanning of larval cuticular structures is proposed.     

Fate of maternal conjugated ecdysteroids during embryonic development in Locusta migratoria

Newly laid eggs of Locusta migratoria contain impressively high concentrations of conjugated 2-deoxyecdysone and conjugated ecdysone of maternal origin. These molecules are metabolized during embryonic development, the changes concerning not only the ecdysteroid genins but also the conjugating moieties. In the present paper the fates of the maternal conjugates were followed during embryogenesis in the eggs. The conjugates were separated both by silica gel TLC and reverse-phase HPLC and measured, before and after hydrolysis, by RIA. Fluctuations of radioactive ecdysteroid conjugates were also investigated in eggs laid by females subjected to massive injections of tritiated cholesterol. The results are discussed in relation to recent data on identification of ecdysteroid conjugates in Locusta and a model for the sequences of metabolic events leading from maternal ecdysteroid conjugates to the embryonic ecdysteroids is proposed.     

Ecdysteroid levels and integument changes in post-embryonic stages of Anastrepha suspensa

Ecdysteroid levels in larvae and pupae of Anastrepha suspensa (Diptera: Tephritidae) were measured by radioimmunoassay. These levels were correlated with histological changes throughout the development of the post-embryonic stages. Ecdysteroid levels increase rapidly throughout the last-larval instar and on the last day of this stage are 283 pg equivalents of 20-hydroxyecdysone per insect (14.5 ng/g) when wandering behaviour is initiated. At the end of this period the puparium is formed and within 24 h, the ecdysteroid rises to its highest peak (625 pg equivalents of 20-hydroxyecdysone/insect). Larval-pupal apolysis is initiated within 24 h later and the pupal cuticle is then secreted. Two days later, the ecdysteroids reach their lowest levels (75 pg equivalents of 20-hydroxyecdysone/insect or 0.6 ng/g) and most of the larval fat body and other tissues have been histolysed. In 5- to 10-day old pupae ecdysteroid levels again increase and remain relatively high throughout. During this period the larval epidermis is replaced by imaginal epidermis, imaginal discs begin to proliferate and the adult cuticle is secreted. Ecdysteroid levels finally fall 2 days prior to adult emergence. HPLC determinations indicate that 20-hydroxyecdysone is the predominant free ecdysteroid, and along with ecdysone, is readily detectable in all postembryonic stages of this species. An unusually high and unexplained peak of 20-hydroxyecdysone occurs in the pharate adult. This peak probably consists of ecdysone metabolites with retentions similar to that of 20-hydroxyecdysone and to which the antiserum is sensitive.     

Ecdysteroid titres during postembryonic development of Sarcophaga bullata (Sarcophagidae: Diptera)

The level of ecdysteroids in Sarcophaga bullata was determined by radioimmunoassay (RIA) from the time of larviposition (0 hr) until adult eclosion. Five distinct peaks of ecdysteroid activity were recorded. The first two, which occurred midway through the duration of the stadia (14 and 30 hr, respectively), resulted in larval/larval moults (24 and 44 hr). The third peak of ecdysteroid activity commenced at 131 hr and was associated with formation of the white prepuparium. The fourth peak was sustained over a long time period (from 79 hr post pupariation to 120 hr) and resulted in pupal/adult apolysis and the definition of the adult form. The last elevation of the ecdysteroid titre at approx. 160 hr post pupariation) was associated with the synthesis and secretion of adult cuticle.     

Endogenous ecdysteroid levels and rates of ecdysone acylation by intact ovaries in vitro in relation to ovarian development in adult female house crickets,Acheta domesticus

Ecdysteroid titres have been determined in adult female house crickets (Acheta domesticus) in relation to reproductive maturation. Ecdysteroid levels in newly emerged adult females are low except in the gut and carcass, which probably reflect the remnants of the preecdysial ecdysteroid peak. Ecdysteroid levels in all compartments increase markedly once ovarian weight surpasses 10 mg. Apolar ecdysteroid conjugates (ecdysone 22-fatty acyl esters) predominate in ovarian tissue throughout ovarian maturation, but low levels of free ecdysteroid and polar conjugated ecdysteroids are also present. During this period, two peaks of ecdysteroids (mainly free and apolar conjugated ecdysteroids) are observed in the haemolymph, gut, and carcass compartments. The peaks in the haemolymph occur when the ovarian mass reaches 30 and 100 mg. The gut and carcass may be acting as sinks or sites of metabolism for the hormone released from the ovaries. The rate of ecdysone acylation by ovaries was found to be developmentally regulated, increasing from low levels in the immature ovaries of newly emerged females as the ovaries increase in size. A semiquantitative assay has been developed to identify compounds which inhibit the conversion of [³H] ecdysone into 22-fatty acyl [³H] ecdysone by ovaries in vitro. A number of ecdysteroids possessing a free hydroxyl group at C-22 as well as the side-chain stereochemistry of ecdysone effectively inhibit this conversion, probably by acting as competitive substrates. In the cases of 20-hydroxyecdysone and ponasterone A, it was clearly demonstrated that these compounds are converted to a mixture of C-22 fatty acyl esters. Several other compounds which have been sugested to affect ecdysteroid metabolism/mode of action in other systems were also tested for their effects on the acyltransferase activity of ovaries in vitro. Arch. Insect Biochem. Physiol. 35:279-299, 1997.© 1997 Wiley-Liss, Inc.