Indirect stimulation of the prothoracic glands of Manduca sexta by juvenile hormone: Evidence for a fat body stimulatory factor

Juvenile hormone or ZR512 applied topically to day-5, fifth-instar, neck-ligated Manduca sexta larvae results in the acceleration of pharate pupal development when compared to neck-ligated, untreated larvae. This occurs as a result of an increase in the haemolymph ecdysteroid titre. Juvenile hormone, therefore, appears to stimulate ecdysone synthesis by the prothoracic glands of these animals, but not directly as shown by in vitro analysis. When ecdysone synthesis by the prothoracic glands of these ZR512- or juvenile hormone-treated animals was analyzed in vitro, increased gland activity was demonstrated but this did not occur until at least 2 days after treatment. This time lag in response supports the concept of an indirect stimulation of the prothoracic glands. Incubation of fat body from these ZR512- or juvenile hormone-treated, neck-ligated, larvae in 19AB culture medium revealed that the resulting pre-conditioned medium was capable of stimulating prothoracic glands in vitro up to 9-fold in a dose-dependent manner. A developmental profile was generated of the amount of this stimulatory factor released into the medium by fat body of untreated larvae representing each day of the last instar, and revealed that maximal release occurred with fat body from day-9 animals. The alterations in the amount of factor release by the fat body during larval-pupal development roughly correlated with the juvenile hormone titre and suggested a possible role for this factor in the regulation of the ecdysteroid titre. In contrast to the prothoracicotropic hormone, the fat body stimulatory factor is heat labile and has an apparent mol. wt in the 30,000 Dalton range. These data, particularly the kinetics of prothoracic gland stimulation, suggest that the factor may be a protein transporting a substrate for ecdysone biosynthesis to the prothoracic glands.     

Ecdysone,juvenile hormone and oögenesis in Rhodnius prolixus

Oviposition and oögenesis can be inhibited in female Rhodnius prolixus by ecdysone given by the digestive tract. The inhibition is dose-dependent, and doses higher than 4.0 ng ecdysone/mg body weight drastically reduce the size and shape of the whole ovaries. In ecdysone-treated insects, normal oviposition and oögenesis can be re-established by a subsequent blood meal without ecdysone, or by the application of a juvenile hormone analogue.These results suggest that ecdysone inhibits juvenile hormone production.     

Hormonal control of uric acid storage in the fat body during last-larval instar of Manduca sexta

In the last-larval instar of the tobacco hornworm, Manduca sexta, a switch from excretion of uric acid to storage in the fat body occurs during transition from the feeding to the wandering stage. Neuroendocrine control of this change from excretion to storage was demonstrated by neck-ligation experiments with synchronously reared larvae. Results indicate that a neurohormone is released from the head 24–30 hr before the initiation of wandering and coincident with the first release of ecdysone that initiates metamorphosis. Direct involvement of the moulting hormone was shown by the effects of multiple injections of 20-hydroxyecdysone into the abdomen of larvae that had been ligated before the release of hormone. Urate levels in the fat body were 20- to 100-fold higher from hormone-injected larvae as from saline inject controls. Topically applied juvenile hormone or methoprene reversed the 20-hydroxyecdysone-induced storage of urate. Increased levels of uric acid in the haemolymph during pupal development result from the presence of juvenile hormone, and the abrupt decrease in uric acid concentration in the haemolymph just prior to pupal ecdysis results from a decreased titre of juvenile hormone. Applications of methoprene prevented the decrease in uric acid levels in the haemolymph.     

Role of juvenile hormone in the synthesis and sequestration of vitellogenins in the red cotton stainer, Dysdercus koenigii (Heteroptera: Pyrrhocoridae)

Investigations were carried out to determine the role of juvenile hormone (JH) and 20-hydroxy ecdysone in the synthesis and uptake of vitellogenins, which were earlier identified, purified and characterised, in Dysdercus koenigii. The concentration(s) of vitellogenin(s) in fat body, haemolymph and that of vitellin(s) in ovary were significantly lower after chemical allatectomy at eclosion. In addition, at 70 h after emergence, chemical allatectomy reduced ovarian vitellin concentration, but vitellogenin levels remained normal in the fat body and haemolymph. The haemolymph vitellogenins were not incorporated into oocytes in such insects. Administration of JH-III at 20 h after allatectomy restored vitellogenin levels in the fat body and haemolymph, but the ovary failed to incorporate the available vitellogenins from haemolymph in such insects. However, when JH-III was administered twice, one at 20 h and then at 70 h after allatectomy, vitellogenin concentrations in fat body and haemolymph and also vitellin concentrations in ovary approached control levels. It is suggested that JH has two separate roles, one in vitellogenin synthesis and the other in uptake. 20-hydroxy ecdysone had no apparent role in either vitellogenin synthesis or uptake in D. koenigii.     

Molecular-genetic mechanisms of the effect of developmental hormones in insects

A review of the available data on molecular mechanisms underlying the regulation of gene expression by the developmental hormone ecdysone and juvenile hormone. Heterodimer ESP/USP is the main ecdysone receptor in D. melanogaster. Structures similar to ESP/USP were found in other insects. The information about molecular-genetic mechanisms of the effect of juvenoids is less definite. It has been proposed that the juvenile hormone in insects is a modulator of the ecdysone effect.     

Molecular-genetic mechanisms of the effect of developmental hormones in insects

A review of the available data on molecular mechanisms underlying the regulation of gene expression by the developmental hormone ecdysone and juvenile hormone. Heterodimer ESP/USP is the main ecdysone receptor in D. melanogaster. Structures similar to ESP/USP were found in other insects. The information about molecular-genetic mechanisms of the effect of juvenoids is less definite. It has been proposed that the juvenile hormone in insects is a modulator of the ecdysone effect.     

Activation of vitellogenin synthesis in the mosquito Aedes aegypti by ecdysone

Injected β-ecdysone was found to induce the synthesis of yolk protein (vitellogenin) in adult female Aedes aegypti without a blood meal. After injection of 5 μg ecdysone per mosquito, vitellogenin constituted 80 per cent of the total protein secreted by explanted fat body, a proportion comparable to that produced by fat body from blood-fed females. Moreover, the time course of induction of vitellogenin synthesis in ecdysone-injected mosquitoes was similar to that triggered by a blood meal. Response to ecdysone is dosedependent: 0·5 μg per female was required to stimulate synthesis to 50 per cent of the level found 18 hr after a blood meal. Ecdysone was effective in decapitated or ovariectomized mosquitoes, and also when applied directly to fat body preparations in vitro. Thus it appears that ecdysone acts directly on the fat body to induce specific protein synthesis, as does the vitellogenin stimulating hormone (VSH) from the ovary of blood-fed mosquitoes. These results suggest that ecdysone can replace VSH in inducing vitellogenin synthesis in the unfed mosquito.     

Factors promoting vitellogenic competence and yolk deposition in the cockroach ovary: Larval-adult transition

Experimental manipulation of juvenile hormone and ecdysone during larval-adult transition in Periplaneta americana provided evidence that during this period the absence of juvenile hormone and the presence of ecdysone is required for ovarian competence.Inhibition of follicle cell DNA synthesis or juvenile hormone administration during larval-adult transition precluded vitellogenic competence, suggesting that follicle cell DNA synthesis is required for ovarian follicles to later engage in yolk deposition, and that the requisite DNA synthesis occurs only when ecdysone is present in the absence of juvenile hormone.     

Ecdysteroid regulation of ovarian growth and oocyte maturation in the red flour beetle,Tribolium castaneum

Previous studies from our laboratory showed the involvement of juvenile hormone (JH) and ecdysteroid signaling in the regulation of female reproduction in the red flour beetle, Tribolium castaneum. JH regulates vitellogenin (Vg) synthesis in the fat body but the role of ecdysteroid signaling is not known. Here, we report on ecdysteroid regulation of ovarian growth and oocyte maturation. Microarray analysis of RNA isolated from ovaries showed the up-regulation of several genes coding for proteins involved in ecdysteroid signaling on the 4th day after female adult eclosion. The functional analyses of genes coding for proteins involved in ecdysteroid and JH signaling pathways by RNA interference (RNAi) revealed that ecdysteroids but not JH regulate ovarian growth and primary oocyte maturation. Ultrastructural studies showed the temporal sequences of key events in oogenesis including the development of primary oocytes, the differentiation and development of follicle epithelial cells, and the formation of intercellular spaces to facilitate uptake of Vg protein. RNAi studies showed that ecdysone receptor (EcR) and ultraspiracle (USP) are required for the ovarian growth, primary oocyte maturation and the growth and migration of the follicle cells. These studies suggest important roles for ecdysteroids in the regulation of oocyte maturation in the beetle ovaries.     

The embryonic diapause of Aulocara elliotti (Orthoptera,Acrididiae)

Progressive hypertrophy of fat body, muscles, gonads and pleuropodial glands was observed with lengthening diapause incubation in embryos of Aulocara elliotti. Embryonic hemolymph stained more darkly and lipoid materials accumulated in the fat body and other tissues. Gradual increase in volumes was observed in the corpora cardiaca, corpora allata and ventral head glands (ecdysial glands). Termination of diapause was achieved in embryos treated with juvenile hormone analogue (JHA) (4 ethyl phenyl 6.7 epoxy geranyl ether--87%, Stauffer Chemical) applied directly to the egg undiluted or when eggs were immersed in a 10% solution in methanol. Treated embryos terminating diapause underwent rapid teratological morphogenesis, achieving pigmentation and sclerotization as in definitive embryos without engulfing their yolk. In treated embryos which remained in diapause, unusual paired masses of pigmented cells, resembling the melanotic pseudotumors of Drosophila, were observed ventral and lateral to the stomodeum and are thought to be subesophageal body cells (pericardial cell homologues). In some embryos these cells were enlarged, lysed or their nuclei rhexic and pycnotic. This response suggests these cells are target organs for JHA, or perhaps for ecdysone or its precursor released by JHA treatment. Endocrine glands in treated embryos had significantly larger volumes (.01) than those of controls or untreated embryos. The ventral head glands of treated embryos appeared to be cytoplasmically depleted. It is suggested that JHA triggered the release of stored ecdysone (or its precursor produced in the ventral head gland) at a rate too rapid for normal morphogenetic processes, such as dorsal closure, to accompany epidermal maturation. The response to JHA cannot be interpreted as juvenilization, but rather must be considered to be precocious maturation. These results indicate that: 1. diapause development involves a transfer of nutrient materials from the yolk into the fat body and other embryonic tissues where they are available to meet the demands of post-diapause morphogenesis; 2. that embryonic diapause in A. elliotti is a consequence of endocrine deficiency which probably results ultimately from the lack of neurosecretory stimulus from the brain-corpora cardiaca complex; and 3. that the subesophageal body cells, and perhaps the pericardial cells, play an essential role in the embryonic physiology, perhaps in the production of carrier protein and/or an essential growth regulator.     

The influence of forskolin on the metabolism of ecdysone and 20-hydroxyecdysone in isolated fat body of the blowfly, Calliphora vicina

Rates of ecdysone and 20-hydroxyecdysone metabolism were measured by radio-assay in an in vitro system containing fat body isolated from blowfly larvae. The addition of forskolin which is known to stimulate artificially the intracellular adenylate cyclase system led to decreased rates of conversion of ecdysone into 20-hydroxyecdysone (= hormone activation) and of 20-hydroxyecdysone further to other metabolites (= hormone inactivation). The effect of forskolin was dose-dependent and reversible. Extracts prepared from larval brains were also tested. Some of them had the same effect as forskolin. It is concluded that the reactions leading from ecdysone to 20-hydroxyecdysone and further to hormonally inactive ecdysteroids are modulated by the intracellular level of cyclic nucleotides. We propose that a neurohormone is involved in the control of the reactions of the ecdysone metabolism. The observed new principle may contribute to the control of the titer of moulting hormone.     

Endocrine aspects of ovary growth and gestation in the Argentinian cockroach,Blaptica dubia (Dictyoptera,Blaberidae)

Titers of juvenile hormone (JH) III and free ecdysteroids were studied in the hemolymph of the ovoviviparous Argentinian cockroach, Blaptica dubia, related to fat body depletion and reproduction. Adult females were analyzed during the first (days 5–25) and second vitellogenic cycle (days 80–100) and during the periods of gestation. Body weight changes of adult females were closely related to ovarian growth, ootheca formation, ootheca deposition, and hatching of the nymphs. Biochemical analysis of the fat body revealed lipids as the main storage compounds, followed by glycogen, proteins, and free carbohydrates. Changes in the fat body weight and in the chemical constituents of the fat body correlated with the processes of vitellogenesis and gestation. Concentrations of JH and free ecdysteroids in the hemolymph were measured by high pressure liquid chromatography-mass spectrometry. JH III was the only JH homolog found. JH III titers were high during vitellogenesis as well as toward the end of the gestation period. Changes in the concentrations of ecdysone and 20-hydroxyecdysone were less clear. The results reveal JH III as the major gonadotropic hormone in adult females of B. dubia.     

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     

Fat body stimulation of ecdysone synthesis in Heliothis zea

Prothoracic glands of Heliothis zea pupae require both a humoral factor and prothoracicotropic hormone (PTTH) to synthesize ecdysone. The humoral factor is absent when pupae are maintained at diapause-sustaining temperatures. Thus, pupae remain in diapause despite the release of PTTH at or before larval-pupal ecdysis.Tissue implantation experiments revealed that a diapause-terminating factor is present in the fat body of non-diapausing pupae. Other tissue implantation experiments showed that, when diapausing pupae were transferred from 19 to 27°C, diapause-terminating activity appeared first in the fat body and then the fat body into the haemolymph. HPLC separation of the haemolymph and fat body fractions followed by bioassay demonstrated that fractions containing diapause-terminating activity eluted from both tissues within 28–30 min. These results suggest that the factors found in the fat body and haemolymph may be the same compound.Evidence from ecdysone radioimmunoassay experiments ruled out the possibility that the diapauseterminating activity was due to either free or conjugated ecdysteroids. Corresponding in vitro experiments in which the prothoracic glands were cultured with brain extracts versus fat body and haemolymph fractions also indicated that the haemolymph/fat body factor was not PTTH.     

整合昆虫发育生物学和果蝇遗传学来研究昆虫发育与变态

成熟动物(昆虫)个体大小主要由生长持续时间和生长速度2个因素所决定。蜕皮激素和保幼激素协同调控昆虫发育变态,并决定昆虫生长持续时间;胰岛素、营养和细胞接触抑制等生长死亡信号及其传导途径控制细胞分裂、长大、分化、死亡,并最终决定昆虫的生长速度。最近研究成果表明,蜕皮激素信号和胰岛素信号相互影响,对昆虫个体大小起决定性的作用;脂肪体和营养代谢把这2条信号传导途径整合起来。科学家将会整合昆虫发育生物学和果蝇遗传学,抓住生长持续时间和生长速率2个关键因素,并以营养代谢和脂肪体为切入点来研究昆虫的发育变态。     

Some effects of allatectomy in the female tsetse,Glossina austeni

The effects of juvenile hormone on the milk gland, ovaries, and fat body of adult female G. austeni were studied by allatectomy and hormone replacement therapy. In the absence of juvenile hormone, milk synthesis is slow, leading to the production, in a few cases, of small larvae over a prolonged inter-larval period. In most cases, no viable larva is produced and the fat body hypertrophies. Replacement of the corpus allatum with C₁₆JH leads to a rapid synthesis of milk, production of normal-sized larvae and a reversal of the effect on the fat body. It is therefore suggested that the milk gland activity is directly influenced by JH. Allatectomy in most cases also results in only one egg being matured. The others do not enter vitellogenesis. Similarly, this effect on the ovaries can be reversed by topical application of C₁₆JH.     

Ecdysteroids in adult males and females of Drosophila melanogaster

Ecdysteroid titres in whole flies and different tissues of adult male and female Drosophila were determined at various times after eclosion using a radioimmunoassay. The ecdysteroid titre decreased as the flies matured after eclosion. The differences in titre between males and females can be accounted for by their difference in body weight. The ecdysteroids were found to be distributed throughout several tissues. At eclosion not all of the ecdysteroid complement present could be accounted for by that found localised in tissues. After maturation of the flies the ecdysteroids in various tissues can account for the majority of that detected in whole-fly extracts. Ecdysteroids were produced during in vitro culture of various tissues, but the quantities detected were low by comparison with ring glands of wandering 3rd-instar larvae. Neither the ovaries nor the abdominal body walls (fat body) seem to be a major source of hormone, and they are only able to convert minute quantities of ecdysone to the biologically active form, 20-hydroxyecdysone, in vitro. The amounts of 20-hydroxyecdysone present were measured using high performance liquid chromatography and radioimmunoassay. We tentatively suggest that the differential experession of the yolk-protein-genes in the fat bodies of males and females does not result from differences in hormone titres between them.