Nutrient-mediated juvenile hormone secretion in mosquitoes

Our objective was to determine whether environmental conditions affect the juvenile hormone (J.H.) regulated phase of ovarian development of mosquitoes. Primary ovarian follicles of nutrient-deprived adult Aedes aegypti reared in non-crowded cultures remain in an early, teneral stage of development. After a meal of sucrose or blood, follicles of crowded mosquitoes develop to a stage competent to deposit yolk directly following blood ingestion; a topically-applied analogue of J.H. stimulates the ovaries to develop to a similar stage. A. aegypti collected in nature are of a size suggesting that their follicles would remain in the teneral stage when adults are nutrient-deprived.     

A neurosecretory hormone-releasing factor from ovaries of mosquitoes fed blood

In mosquitoes, a hormone (egg development neurosecretory hormone or EDNH), produced by the medial neurosecretory cells and stored in the corpus cardiacum soon after eclosion, is released after a blood meal, and vitellogenesis begins a few hours later. When either the ovaries or the neurosecretory cells and corpus cardiacum are removed before the blood meal, vitellogenin is not synthesized. Therefore, we tested the hypothesis that the release of EDNH from the corpus cardiacum is dependent on the secretion of a releasing factor from the ovaries.Using a bioassay for EDNH in the corpus cardiacum, we found that the gland of an ovariectomized female remained active after blood feeding, and therefore, has not released EDNH. When an ovary was implanted before the blood meal, the corpus cardiacum was inactive, and therefore, had released EDNH. We concluded that the ovaries secrete an EDNH-releasing factor, and that this factor and EDNH must both be in circulation before vitellogenesis can begin. Although releasing factor alone did not stimulate vitellogenesis, it was the rate limiting process that controlled the onset of vitellogenesis.Using a bioassay for the EDNH-releasing factor from the ovaries and using rocket-immuno-electrophoresis, we showed that a Culex ovary, but not an Anopheles ovary, could replaces Aedes ovaries as a source of the releasing factor.In Ae. aegypti, EDNH-releasing factor was required again after oviposition in order to reinitiate the vitellogenic process in females that took a second blood meal. Thus, the releasing factor is part of the mechanism regulating cyclic egg maturation in mosquitoes.     

Effects of food and water availability,and of NCA-1 section,upon juvenile hormone biosynthesis and oöcyte development in adult female Periplaneta americana

The combined stimuli from feeding, drinking, mating and crowding are required for the highest rates of oöcyte development in maturing adult female Periplaneta americana. A graded series of “sexually suppressed” females can be produced by withholding one or more of these stimuli, and this stepwise retardation of ovarian development appears to be achieved by a progressive increase in corpus allatum restrain. It seems that all of these environmental cues are centrally integrated such that juvenile hormone-dependent processes can proceed at an appropriate pace. Water availability is evidently the most important factor. Water-deprived females are sexually unreceptive, and are found to have very low rates of juvenile hormone biosynthesis and ovarian development. This holds true even when they are provided with food. In contrast, 75% of starved females are sexually receptive if allowed free access to drinking water. At the same time they have enhanced corpus allatum activity, and show significant oöcyte growth.The mode of regulation of corpus allatum function in adult female P. americana appears to be significantly different to the model proposed for the cockroaches Leucophaea maderae and Diploptera punctata. Allatotropic signals may be more important than inhibitory signals in the former species. The glands continue to be moderately active in fed, mated female P. americana after NCA-1 section (although a major peak of corpus allatum activity is not obvious), and the rate of oöcyte development is not greatly reduced. However, NCA-1 mediated inhibition of juvenile hormone biosynthesis is less readily demonstrated. We could observe no enhancement of corpus allatum activity nor stimulation of oöcyte growth after unilateral NCA-1 section when the operation was performed on starved virgins, and the same result was found after bilateral NCA-1 section when starvation or virginity were separately enforced. A slight stimulation of juvenile hormone biosynthesis, together with a small increase in oöcyte development, could only be demonstrated after both NCA-1 were cut in starved virgins.We conclude that neurally mediated corpus allatum inhibition in has yet to be adequately verified, and that the available evidence does not contradict the theory that juvenile hormone biosynthesis in adult females could be regulated predominantly by chemicals released into the haemolymph.     

Nonvitellogenic female sterile mutants and the regulation of vitellogenesis in Drosophila melanogaster.

The genetic and endocrine regulation of vitellogenesis was investigated by studying 18 female sterile mutations that disrupt the development of normal vitellogenic follicles. Applications of exogenous juvenile hormone analog and reciprocal ovarian transplants between flies of different genotypes were employed to accomplish our first two objectives: to find (1) whether the mutation blocked development of the ovary directly, and (2) whether the mutation altered the hormonal milieu. In 15 of the mutants the developmental defect was localized to the ovary, but in the other 3 the ovary was competent to respond to a permissive environment. The internal milieu of these three mutants (ap⁴, fs(3)A1, fs(2)A18) was unable to provoke normal development in wild-type ovaries, suggesting that these mutations cause endocrine defects. Our third objective was to find whether an endocrine organ was itself defective in any of these mutants. The corpus allatum from two of the mutants was unable to provoke vitellogenesis in isolated wild-type abdomens, but corpora allata from wild-type females or from other mutants were able to promote maturation of ovarian follicles in isolated abdomens. Our fourth objective was to find whether any of the mutants were able to produce yolk proteins. Immunoelectrophoresis of fly hemolymph demonstrated that in all mutants tested vitellogenins were found in the blood. These experiments permit four main conclusions. First, they identify the first Drosophila mutants in which an endocrine gland is shown to be intrinsically defective during adulthood. Second, they show that the production of morphologically normal late previtellogenic follicles is not required for the induction of vitellogenin synthesis and secretion. Third, they show that juvenile hormone can cause ovarian follicles to sequester yolk in mutant flies. And finally, they show that mutants with defective corpora allata still synthesize and secrete vitellogenin. Taken together, these conclusions suggest that in Drosophila melanogaster the uptake of vitellogenin into follicles depends upon the availability of juvenile hormone, but that the synthesis and secretion of vitellogenin are independent of both normal ovaries and totally normal corpora allata.     

Significance of haemolymph juvenile hormone titer changes in timing of migration and reproduction in adult Oncopeltus fasciatus

Previous studies had shown that both migratory flight and ovarian maturation in Oncopeltus fasciatus were stimulated by juvenile hormone (JH), yet the two behaviors were mutually exclusive. To understand the relationship of this hormone to these behaviors, haemolymph juvenile hormone titers were determined in both sexes of Oncopeltus throughout the adult stage by the Manduca pigmentation bioassay. Animals reared under long day conditions (17L:7D, 24°C) showed an immediate rise in haemolymph titers of JH after adult emergence whereas those reared in a short day photoperiod (12L:12D, 24°C) had a more gradual increase in hormone titers. Migratory flight behavior occurred during periods of intermediate hormone titers while oviposition did not begin until JH titers had reached their peak. It was concluded that lower JH titers normally stimulate flight in the prereproductive adult whereas higher titers are required for complete ovarian development. The corpus allatum in Oncopeltus thus coordinates migration and reproduction in response to the environmental cues of photoperiod, temperature, and food quality.     

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.     

Factors responsible for the initiation of a second oöcyte maturation cycle in the ovoviviparous cockroach Nauphoeta cinerea

The factors responsible for the initiation of a second oöcyte maturation cycle were investigated by measuring oöcyte growth, vitellogenin titre, and corpus allatum activity after injection of juvenile hormone and/or removal of the egg-case from pregnant females and by performing ovary and corpus allatum transplant experiments.Egg-case removal in late pregnancy results in immediate oöcyte growth, whereas in early pregnancy oöcyte growth is resumed only after a lapse of time, even after injection of juvenile hormone. This, however, induces an immediate increase in the haemolymph vitellogenin titre. A single injection of 2 or 10 μg of juvenile hormone II first stimulates some oöcyte growth after this lapse of time and later activates the corpora allata, which in turn leads to completion of oöcyte maturation. A repeat injection of 10 μg stimulates continuous oöcyte growth without activating the corpora allata. In the presence of an egg case, activation of the corpora allata is suppressed, even after injection of 2 μg of juvenile hormone III, and the oöcytes do not grow. Injection of higher doses stimulates oöcyte growth and leads to expulsion of the egg case in up to 95% of the females. This, however, is not a direct consequence of the increase in size of the ovaries. Ovary transplant experiment show that in young pregnant females the second generation of oöcyte is not yet competent for growth and that ovaries which are competent can mature in young pregnant females, treated with juvenile hormone, whose egg case has been removed.The results are summarized in a model demonstrating the various factors involved in regulating corpus allatum activity in oöcyte maturation and pregnancy and after application of juvenile hormone. We prepose that the corpus allatum activating effect of exogenous juvenile hormone is mediated by the growing oöcyte and that this activation can be suppressed by the continuous presence of exogenous juvenile hormone.     

Endocrine control of oögenesis in the housefly,Musca domestica vicina

The endocrine system involved in the control of oögenesis in the housefly, Musca domestica vicina, was investigated. Allatectomy, decapitation, and starvation of newly emerged females resulted in inhibition of oögenesis, showing a close relationship between enlargement of the corpus allatum and growth of follicles during the first oögenesis. Histological observation of sexually matured females showed active secretion of the corpus allatum and the medial neurosecretory cells of pars intercerebralis. Topical application of juvenile hormone analogues (JHA) to the allatectomized fly induced the growth of ovary, and critical doses of methoprene and methyl-7, 11-diethyl-juvenate for the maturation of the ovary were determined. JHA stimulated initiationof oögenesis in the starved or decapitated flies as well as vitellogenesis in the sugar-fed one; subsequently it was found that juvenile hormone acted not only as a gonadotropin but also as a regulator of vitellogenesis. Furthermore, JHA stimulated cell lysis in pupal fat body of female flies, indicating a possible influence of juvenile hormone upon the process of releasing vitellogenin.     

Effect of mating on the maturation of ovarian follicles in Anopheles atroparvus Van Thiel

Blood fed virgin females of Anopheles atroparvus did not develop ovarian follicles to maturation. In these females, the ovaries were characterized by small follicular size and little yolk deposition. Only the ovaries of blood fed mated females completed development. Thus, the mating permits the complete maturation of the eggs in these mosquitoes.     

Role of the Corpus Allatum in the Control of Adult Diapause in the Blow Fly,Protophormia terraenovae

Adults of the blow fly, Protophormia terraenovae developed their ovaries promptly after emergence under long-day conditions at 25 degrees C, although they entered diapause under short-day conditions at 20 degrees C. Application of a juvenile hormone analog (JHA), implantation of the corpus allatum (CA) from reproductive adults, or transection of the nervus corporis allati induced ovarian development under diapause-inducing conditions. Removal of the CA suppressed ovarian development under diapause-averting conditions, and JHA application induced ovarian development in allatectomized adults. Therefore adult diapause in P. terraenovae is caused by a reduction of juvenile hormone secretion from the CA, and the endocrine activity of the CA is inhibited through a nervous pathway by the brain in diapause adults. Copyright 1997 Elsevier Science Ltd. All rights reserved     

The significance of free ecdysteroids in the haemolymph of adult cockroaches

The existence of ecdysteroids in the haemolymph of adult Periplaneta americana has been demonstrated for the first time. It appears that 20-hydroxyecdysone is responsible for most of the observed RIA activity. There is a relatively high titre (28.7 ± 3.7 ng/ml) in females immediately after adult emergence, a decrease over the next 5 days, and a new peak (20.3 ± 4.1 ng/ml) towards the end of the first gonotrophic cycle. The post-emergence peak is also apparent in males, and the titre similarly falls over the next few days. However, the subsequent increase does not occur and the second peak is evidently lacking. The female-specific peak can be abolished by surgical removal of the ovaries, and its appearance is similarly prevented when ovarian development is precluded by allatectomy. The evidence suggests that the ovaries are a major source of haemolymph ecdysteroids in adult females of this species. It remains to be seen whether the female-specific peak is merely the result of an inconsequential leakage from developing oöcytes, or is indeed the secretion of a true hormone with a specific function, possibly the suppression of corpus allatum activity at the time of chorion formation. Certainly, we find no evidence for any involvement of haemolymph ecdysteroids in the suppression of juvenile hormone biosynthesis which accompanies enforced virginity or prolonged starvation in P. americana.The significance of these results is discussed both in relation to other titre determinations and to the evolution of corpus allatum regulation in the Blattaria, with additional comments concerning the humoral environment that prevails when certain juvenile hormone-dependent genes are expressed in the adult female.     

Photoperiodic sensitivity and diapause induction during ovarian,embryonic and larval development of the flesh fly,Sarcophaga argyrostoma

Sensitivity to the daily photoperiod, particularly with respect to pupal diapause induction, was studied during ovarian, embryonic, and larval development of the flesh flySarcophaga argyrostoma. Large flies were shown to have a greater number of primary follicles in their ovaries and to be capable of limited ovarian maturation in the absence of exogenous protein (autogeny). Such ovarian development occurred independently of photoperiod. However, long days experienced during embryogenesis caused more rapid development, and earlier larviposition, than short days. Short days during embryonic and subsequent larval development also induced pupal diapause, whereas long days led to continuous or non-diapause development of the pupae. Pupal diapause could not be induced by photoperiods during the vitellogenic phase of ovarian development. InSarcophaga argyrostoma, a maternal effect preventing pupal diapause among the progeny of files with a diapause history was not observed.     

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.     

Evidence that the ovaries of Musca domestica do not maintain cyclicity by regulating the corpus allatum.

When the female housefly retains eggs, vitellogenesis in the penultimate oöcytes is suppressed during continued protein feeding. Allatectomy of gravid females or of females with developing oöcytes did not prevent maturation of a second batch of eggs. This result does not support the claim of Adams (1970) that an oöstatic hormone, produced by ovaries with retained eggs, inactivates the corpus allatum (CA) and thereby prevents development of the next batch of eggs.The report of Adams and Hintz (1969) that the CA regulates egg maturation depends on their removal of ring gland, which they incorrectly refer to as ‘allatectomy’. In the present report, removal of the ring gland from 1 day old females suppressed egg development, whereas removal of the CA alone did not. Therefore, sufficient CA hormone for reproduction was secreted within 24 hr of emergence, and it was the removal of the corpus cardiacum, and not the CA, that had prevented egg development in the experiments of Adams and Hintz.     

Release of egg development neurosecretory hormone in Aedes aegypti and Aedes taeniorhynchus induced by an ovarian factor

Ovariectomized Aedes aegypti do not synthesize vitellogenin after a blood meal, unless an ovary from a blood-fed donor is implanted. Decapitation, however, prior to implantation inhibits vitellogenin synthesis. A female ovariectomized and decapitated 6 hr after a blood meal, synthesizes vitellogenin if an ovary from a blood-fed donor is implanted. On the other hand, females that are fed on blood and immediately decapitated can not be stimulated to synthesize vitellogenin with implanted ovaries removed from blood-fed donors. These experiments led to the hypothesis that the blood meal stimulates the ovary to secrete a corpus cardiacum stimulating factor, that in turn promotes release of egg development neurosecretory hormone stored in the corpus cardiacum.Injection of 20-hydroxy-ecdysone or ovarian extract prepared from ovaries removed from unfed females does not release egg development neurosecretory hormone. Thus corpus cardiacum stimulating factor is not 20-hydroxy-ecdysone, and ovaries removed from unfed females do not store it.The rate of inactivation of egg development neurosecretory hormone released from the corpus cardiacum after a blood meal was investigated by implanting an ovary into females that were blood fed for various intervals than decapitated and ovariectomized. Seventy per cent of implants grow when the operation is done 18 hr after feeding, and 30% when the operation is done between 18 and 24 hr after feeding, indicating that egg development neurosecretory hormone is stable for the first 18 hr after a blood meal.Aedes taeniorhynchus females ovariectomized 24 hr after adult emergence do not synthesize vitellogenin. When such a female is implanted with an ovary removed from a sugar-fed or blood-fed Aedes aegypti donor vitellogenin synthesis is initiated, and the implant grows. Decapitation prior to implantation inhibit vitellogenin synthesis and implants do not grow. These results indicate that corpus cardiacum stimulating factor is not species specific.     

The hormonal control of mitosis and meiosis during oögenesis in a blood-sucking bug Panstrongylus megistus

Total or partial ablation experiments were performed on the pars interecerebralis (P.I.), thoracic glands and corpus allatum of Panstrongylus megistus at two critical times during the initial development of the ovary: the periods before the mitotic crisis and before meiosis.Ablation of the P.I. clearly shows that ovarian mitoses and meiosis in the female P. megistus are two distinct phenomena, both dependent on the brain. Induction of mitosis is regulated by the A cells of the P.I. Once the mitotic crisis is over, these cells are no longer necessary for further ovarian development or, in particular, for the initiation of meiosis. The latter is dependent on the A cells of the P.I.The thoracic gland is not required for ovarian mitosis, but is indispensable for meiosis to occur. The corpus allatum has no influence on the differentiation of the ovariole but seems to be required for correct ovarian function during the cytoplasmic growth period of the oöcytes.     

Hormonal controls on reproduction in female heteroptera

A survey of the literature related to hormonal control of reproduction in female heteropterans reveals many common features. Juvenile hormone secreted by the corpus allatum is the principal hormone governing vitellogenesis. Feeding and nutrition affects egg development via juvenile hormone secreted by the corpus allatum, which is under inhibitory control from the brain. Information about feeding reaches the brain via a humoral route. Similarly, mating increases egg production by altering the degree of inhibition of the corpus allatum by the brain, although the nature of the mating stimulus and the route by which the stimulus reaches the brain remains uncertain. There may be one or more stimulatory factors acting on the corpus allatum. Progress in identifying controls on the corpus allatum is hindered by our ignorance of the identity of the juvenile hormone(s) acting in Heteroptera. Ovulation and oviposition are under the control of a myo-active peptide from the brain, and its release is governed by hormonal inputs from both mating and the ovary. The ovarian input appears to consist of ecdysteroid. A role for ovarian ecdysteroid in controlling the corpus allatum remains uncertain. Arch. Insect Biochem. Physiol. 35:443–453, 1997. © 1997 Wiley-Liss, Inc.     

Role of juvenile hormone and allatotropin on nutrient allocation, ovarian development and survivorship in mosquitoes

Teneral reserves are utilized to initiate previtellogenic ovarian development in mosquitoes. Females having emerged with low teneral reserves have reduced juvenile hormone (JH) synthesis and previtellogenic development. We investigated what role JH, allatotropin (AT) and other head-factors play in the regulation of previtellogenic ovarian development and adult survivorship. Factors from the head are essential for corpora allata (CA) activation and reproductive maturation. We have shown that decapitation of females within 9-12h after adult ecdysis prevented normal development of the previtellogenic follicles; however maximum previtellogenic ovarian development could be induced in decapitated females by topically applying a JH analog. When females were decapitated 12 or more hours after emergence nutritional resources had been committed to ovarian development and survivorship was significantly reduced. To study if allatotropin levels correlated with teneral reserves, we measured AT titers in the heads of two adult phenotypes (large and small females) generated by raising larvae under different nutritional diets. In large mosquitoes AT levels increased to a maximum of 45 fmol in day 4; in contrast, the levels of allatotropin in the heads of small mosquitoes remained below 9 fmol during the 7 days evaluated. These results suggest that only when nutrients are appropriate, factors released from the brain induce the CA to synthesize enough JH to activate reproductive maturation.     

Ovarian and fat body protein concentrations in Ips sexdentatus (Coleoptera: Scolytidae) parasitized by nematodes

The protein concentrations of fat body and ovaries in Ips sexdentatus either uninfected or infected by Parasitaphelenchus sp., P. sexdentati, or Contortylenchus diplogaster were measured at various stages of insect development, from preswarming maturation to the first oviposition (24 hr after mating). Weight variations of the fat body and ovaries in insects infected by C. diplogaster show the same evolution as those observed in uninfected insects, but at a much lower level. Fat body proteins in uninfected insects reach their minimum level during swarming, but they remain fairly constant throughout the maturation of the first egg. After dropping shortly after swarming, the ovarian protein level in such insects increases in two stages during ovarian maturation. The first stage, which corresponds to a slow protein incorporation, takes place during the first 12 hr after mating. During the second stage, i.e., beyond 12 hr, a significant level of proteins is rapidly incorporated into the ovaries. In insects infected by Parasitaphelenchus fat body proteins are reduced and protein incorporation into the ovaries is reduced; Parasitaphelenchus would thus affect at least some proteins required for ovarian maturation in their host. Fat body protein levels are even more affected by C. diplogaster than by Parasitaphelenchus, while incorporation into ovaries seems to be less affected in spite of slower ovarian growth. C. diplogaster might thus essentially act both upon proteins which are not required for the ovarian maturation of their host and upon nonproteinaceous substances that are required for such maturation. Results are discussed in relation to the possible mode of action of parasitic nematodes.