Development of male-incubated ovaries in the gypsy moth,Lymantria dispar

Ovaries from Lymantria dispar females were transplanted into an environment lacking vitellogenin, the male milieu, in order to determine how the presence of vitellogenin in the hemolymph affects the process of protein uptake by gypsy moth oocytes. When undeveloped ovaries from newly ecdysed last instar females were transplanted into males of the same stage, follicles detached from the germarium and increased in size, but the growth of oocytes proceeded more slowly than those from female controls. Although chorion fromation was delayed in male-grown ovaries, scanning electron microscopy of chorionated eggs recovered from adult males showed that a chorion with normal surface architecture was formed by the adult stage. SDS-PAGE analysis of the male-grown ovaries and hemolymph from males receiving ovaries showed that vitellogenin production was not stimulated by the organ transplant and only male hemolymph proteins were internalized by the male-incubated ovaries. Thus, in the absence of vitellogenin, endocytosis of male hemolymph proteins occurred, but the rate of oocyte growth was slowed.     

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.     

Control of vitellogenin synthesis in the Monarch butterfly by juvenile hormone.

Yolk formation in the Monarch butterfly, as in many other insects, entails juvenile hormone-induced synthesis in the fat body, transport in the hemolymph, and uptake into the oocytes of specific sex-limited protein, the vitellogenin. In the Monarch, vitellogenin first appears in the hemolymph 1 day after emergence of the adult butterfly and then rises rapidly in concentration for at least 3 days. The synthesis of vitellogenin in adult females was shown by the incorporation of [³H]leucine. Active labeling was observed at the same time as the presence of vitellogenin in the hemolymph was first detectable, and the radioactivity in vitellogenin expressed as a percentage of radioactivity in total blood proteins reached 50–60% 3 days after adult emergence. The appearance of vitellogenin was prevented by ligature of freshly emerged butterflies at the neck and restored by injection of juvenile hormone. A low yet significant stimulation of vitellogenin synthesis could be detected as early as 10 hr after administration of the hormone into neck-ligated butterflies, and after 30 to 50 hr about 40% of the total blood protein label was found in the specific protein. With C₁₈-juvenile hormone (JH-I), 0.1 μg per animal was effective in inducing a low level of vitellogenin synthesis, and between 0.01 and 1 μg, a linear relationship between synthesis and log dose was observed. The synthetic analog ZR-512 was also active. In a preliminary experiment, actinomycin D effectively blocked the induction of vitellogenin synthesis.     

The roles of juvenile hormone and 20-hydroxy-ecdysone during vitellogenesis in isolated abdomens of Drosophila melanogaster

Both juvenile hormone and 20-hydroxy-ecdysone seem to be involved in the regulation of vitellogenesis in Drosophila melanogaster. It is the purpose of this paper to begin to define the functions of these two hormones. Although vitellogenin synthesis does not occur at a high rate in 1-day-old female abdomens isolated from the head and thorax before 0.75 hr after eclosion, both ZR515 (a juvenile hormone analogue) and 20-hydroxy-ecdysone can cause in these preparations vitellogenin synthesis and secretion into the haemolymph. The synthesis and secretion into the haemolymph of all three vitellogenins which are detectable by electrophoresis in sodium dodecyl sulphate-containing gels of polyacrylamide is promoted by both hormones. That result excludes the hypothesis that these two hormones regulate the synthesis of different vitellogenins. A dose-response curve showed that an injection of 0.2 μl of a 10^?6 M 20-hydroxy-ecdysone solution was sufficient to promote vitellogenin synthesis and secretion in isolated abdomens. Ovaries from isolated female abdomens treated with juvenile hormone analogue showed nearly normal amounts of all three vitellogenins and morphologically normal advanced vitellogenic follicles, whereas ovaries from isolated abdomens treated with 20-hydroxy-ecdysone contained little vitellogenin and no vitellogenic follicles. We conclude that under the conditions used, juvenile hormone permits vitellogenin uptake into the oöcyte much more readily than does 20-hydroxy-ecdysone.     

Changes in biosynthesis and degradation of juvenile hormone during breeding by burying beetles: a reproductive or social role?

Burying beetles, Nicrophorus orbicollis, depend on the location of an unpredictable resource, a small vertebrate carcass, for reproduction. When they discover a carcass, they undergo a correlated rapid rise in titers of juvenile hormone (JH) in the hemolymph and ovarian development. This study investigates the regulation of the changes in JH during breeding in both male and female burying beetles and the role of JH in ovarian development. JH biosynthesis by the corpora allata (CA), measured in vitro, increased in females within an hour of their discovery of a carcass and increased later in males. After returning to low rates as oviposition began, JH biosynthesis rose again 3 days later in females but not in males. Neither the ovaries nor testes synthesized JH. There was a concomitant fall in JH esterase activity within 12 h of discovery of the carcass in both males and females. Although the rise in JH titers and biosynthesis and the fall in JH esterase is correlated with ovarian development, application of methoprene or JH III in the absence of a carcass did not result in vitellogenin uptake by the oocytes. Therefore, we conclude that, in spite of the rapid rise in JH before oviposition, it is not sufficient to regulate vitellogenin synthesis and/or its uptake by the ovaries. We suggest that its role has been preempted to organize social behavior and coordinate parental behavior between mates.     

Occurrence and Significance of Vitellogenins in Female Castes of Social Hymenoptera

A female specific protein is found in queens, workers, and gvnandromorphsof several species of social Hymenoptera. Possibly it is presentalso in experimentally produced diploid males, but it couldnot be found in normal haploid drones. A high tiler of the femalespecific protein (vitellogenin) is found in the hemolymph ofhoneybee queens during periods of oviposition and even duringperiods when no eggs are laid. A high titer is also observedin egg-laying workers of the honeybee and the stingless bees.Rates of synthesis of vitellogenin are negatively correlatedwith the concentration in the hemolymph. In nursing workersrates of vitellogenin synthesis are twice as high as in egg-layingworkers. In non-laying workers vitellogenin normally only occurs in thehemolymph of nursing workers; this period of nursing is moreextended in A. florea than in A. mellifica, a fact which maysignal a more primitive level of female caste differentiationin A. florea. Aspects of genetic, endocrine, and social regulationof vitellogenin synthesis are discussed.     

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.     

Crustacean Vitellogenesis: Its Role in Oocyte Development

One of the major changes that occurs during the maturation ofoocytes is the accumulation of yolk protein, or vitellin (Vn).To better understand how this process is regulated, we characterizedthe Vn of the ridgeback shrimp, Sicyonia ingentis (Penaeoidea).This Vn is a 322 kDa molecule composed of three subunits. Usingpurified Vn, we developed an anti-Vn antiserum and used it tocharacterize vitellogenin by Western blot analysis. The antiserumwas also used in an ELISA to measure hemolymph levels of vitellogenin.Previous studies suggested the presence of vertebrate-type steroidsmight stimulate reproductive processes in decapod crustaceans.Treatment of sexually quiescent female shrimp with progesterone,hydroxyprogesterone, and estradiol did not increase hemolymphlevels of yolk protein precursor. The absence of a responseto these steroids may reflect the presence of other hormones(such as the gonad-inhibiting hormone) that prevent oocyte development.To examine the molecular basis for the regulation of vitellogenesis,ovarian and hepatopancreas expression cDNA libraries were screenedusing the anti-Vn antiserum. A 2.9 kilobase clone was isolatedfrom both cDNA libraries suggesting that both tissues are sitesof vitellogenin synthesis. These molecular tools should be usefulfor in vitro studies of vitellogenin synthesis.     

Juvenile hormone induced ovarian uptake of a female-specific blood protein in Oncopeltus fasciatus

An adult female-specific blood protein was demonstrated in Oncopeltus by gel electrophoresis. This protein is the major band in soluble yolk fractions. It is also present at substantial concentrations in the haemolymph of starved and diapausing adult females. Thus, the failure of the ovaries to form yolk under these conditions is characterized by an inability to remove vitellogenin from the blood. Application of a juvenile hormone analog (JHA) restored protein yolk deposition in starved and diapausing adult females. Whereas other blood proteins decreased no more than two-fold upon JHA treatment, the vitellogenin concentration decreased 20-fold in starved females. The vitellogenin concentration in the blood of diapausing females was not significantly affected by JHA, apparently because synthesis kept pace with ovarian uptake in this case.     

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.     

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.     

Sexual phenotype and vitellogenin synthesis in Drosophila melanogaster

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

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     

早熟素II对家蝇卵黄发生的影响

本实验通过卵巢发育分级的解剖观察、可溶性蛋白质和核酸的定量测定、火箭免疫电泳定量测定卵黄原蛋白及激素处理等方法,研究了早熟素对家蝇(Muscadomestica vicina)卵黄发生的影响。试验结果表明用20ug早熟素处理每头刚羽化家蝇时,家蝇卵黄发生处于不完全抑制状态,其卵黄发生过程比对照组“延迟”约12小时。处理后48小时,血淋巴中卵黄原蛋白的滴度为lo.5ug/ul,接近对照组,而其卵巢鲜重和发育等级明显低于对照组,这种不完全抑制状态表明卵母细胞对卵黄原蛋白的吸收作用受到抑制。当用高剂量100ug早熟素11处理每头刚羽化家蝇时,血淋巴中卵黄原蛋白滴度、卵巢鲜重及其发育均受到明显的抑制,这种抑制效应能自然恢复。 当早熟素11和保幼激素(JH-III)、20-羟基蜕皮酮共同处理时,保幼激素具有明显的去抑制作用,可使血淋巴中卵黄蛋白浓度成倍增加,20-羟基蜕皮酮的去抑制效应不明显。本文还对早熟素作用于双翅目昆虫的方式作了讨论。     

Nonvitellogenic female protein in Musca domestica

During vitellogenesis in Musca domestica, a major hemolymph protein, in addition to vitellogenin, appears preferentially in females. This protein is synthesized by the adult fat bodies, secreted into the hemolymph, and is not taken up by the ovaries during vitellogenesis. We have designated this protein nonvitellogenic female protein (NVFP). It is composed of only one type of polypeptide (M_r=70,000) and occurs in two different forms. Synthesis of NVFP is induced by a protein diet, attaining maximum concentrations in females at the middle of the gonotrophic cycle. In males its maximum concentration never surpasses 10% of the concentration in females. The quantitative variation of the NVFP is cyclic and coincident with the gonotrophic cycles of Musca domestica.     

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.     

Identification and characterization of vitellin in a hermophrodite shrimp,Pandalus kessleri

• 1.1. A female specific protein (FSP, vitellogenin) in hemolymph and its related ovarian protein (vitellin) of Pandalus kessleri were studied by means of electrophoretical and immunological procedures.
• 2.2. The vitellin was purified from vitellogenic ovaries using hydroxylapatite, DEAE cellulose and Sepharose 6B columns, consecutively.
• 3.3. The vitellin had a molecular weight of approximately 560 kD and was composed of two subunits, 81 and 110 kD, respectively.
• 4.4. The vitellogenin concentrations in the hemolymph increased as vitellogenesis in the ovarian oocytes advanced and dropped markedly after the release of mature eggs.

     

家蝇卵巢摄取卵黄蛋白的机理

在家蝇Musca domestica viaina 的卵黄发生过程中,卵母细胞摄取卵黄原蛋白与滤泡开放是相关的。观察不同发育时期的家蝇滤泡结果表明,在摄取活动最旺盛的时期也就是卵黄发生的顶盛时期,其滤泡开放程度最大,而在卵黄发生前期和后期基本上没有摄取活动,此时的滤泡上皮细胞间不开放。卵巢体外培养的激素处理表明,JH可以促进滤泡开放。家蝇卵巢微粒体制备物的Na⁺-K⁺ATP酶活力在卵巢发育过程中存在着动态变化。羽化后24小时时有一定的酶活性,随着卵黄发生的进行,酶活力逐渐增加,到羽化48小时时酶活力最高,然后又开始下降,到羽化72小时时已经很小。羽化32小时的家蝇点滴或注躬 JH之后,测得的卵巢微粒体制备物的Na⁺-K⁺ATP酶活力比正常羽化36小时的高,羽化44小时的家蝇点滴和注射JH之后,测得酶活力比正常羽化48小时的低。羽化36小时和48小时的家蝇卵巢微粒体制备物与JH共同作用后,其Na⁺-K⁺ATP酶的活力分别增加2.95倍和3.50倍,羽化48小时的家蝇卵巢在含有JH的培养液中培养启,其匀浆液的酶活性为对照组的1.26倍。 由此我们可以推测在家蝇的卵黄发生过程中,JH通过促进滤泡开放和增加卵巢微粒体制备物Na⁺-K⁺ATP酶的活力,从而调控卵母细胞对卵黄蛋白的摄取。     

In vivo role of 20-hydroxyecdysone in the regulation of the vitellogenin mRNA and egg development in the American dog tick, Dermacentor variabilis (Say)

Injection of the hormone 20-hydroxyecdysone (20-E) into partially fed (virgin) female adults of the American dog tick, Dermacentor variabilis, while they are attached and feeding on the rabbit host, initiated the expression of the vitellogenin (Vg) gene, and Vg protein secretion and uptake by the ovary. The induction of egg production by 20-E in this bioassay was dose dependent in the range of 1-50 times the concentration normally found in a replete, vitellogenic female. Ticks examined 4 d after the 50 x treatment were still attached to the host, had numerous enlarged vitellin-filled (brown) oocytes in their ovaries, but had not engorged to repletion. The ovaries reached weights similar to those found in untreated, replete (mated) females (pre-oviposition) while solvent-injected controls demonstrated no increase in oocyte size or increase in ovary weight. An increase in the levels of a putative Vg protein was observed in hemolymph samples collected 1, 2 and 3d post-20-E injection but was not observed in the corresponding solvent controls as determined by native PAGE. Analysis of the ecdysteroid-induced protein by tryptic digestion-mass fingerprinting and BLASTP found that the putative Vg had the strongest match to GP80 (U49934), the partial sequence for the vitellogenin protein from Boophilus microplus. A partial Vg cDNA was cloned and sequenced from replete females of D. variabilis with a high similarity to GP80. Using this message as a probe, Northern blots conducted with RNA collected from partially fed, virgin females 1, 2 and 3d post-20-E injection showed upregulation of the Vg mRNA on all 3 days. Controls injected with solvent only showed no Vg mRNA. Injections with juvenile hormone III did not stimulate Vg expression, oocyte growth or full engorgement. These studies indicate that ecdysteroids and not JH can initiate expression of the Vg gene, Vg protein synthesis and release into hemolymph, and Vg uptake into developing oocytes under bioassay conditions mimicking normal feeding on the host.     

Hormonal Control of Sexual Differentiation and Reproduction in Crustacea

SYNOPSIS. Sexual differentiation in malacostracan Crustaceais controlled by the androgenic gland hormone (AGH). In males,the primordial androgenic glands (AG) develop and AGH inducesmale morphogenesis. In females, the primordial AG does not developand the ovaries differentiate spontaneously. Implantation ofthe AG into females yields various results, showing that thesensitivity to AGH differs with the species and the receptiveorgans. Purified AGH of the isopod Armadillidium vulgare consistsof at least two molecular forms, which exist as monomeric proteinswith molecular weights of 17,000 ± 800 and 18,300 ±1,000 Da and with isoelectric points of about 4.5 and 4.3, respectively.The antiserum raised against purified AGH makes it possibleto measure AGH activity by immunoassay. Neurohormones control male and female reproduction. In males,they are involved in the maintenance of the male germinativezone and the control of AG activity. In females, the secondaryvitellogenesis is controlled by the vitellogenesis-inhibitinghormone (VIH) and the vitellogenesis- stimulating hormone (VSH).VIH isolated from the lobster Homarus americanus is a peptidewith a molecular weight of 9,135 Da and shows homology to thecrustacean hyperglycemic hormone and moltinhibiting hormone.Involvement of the molting hormone and the juvenile hormone-likecompound in the secondary vitellogenesis have also been suggested.In the amphipod Orchestia gammarella, the vitellogenesis- stimulatingovarian hormone (VSOH) seems to control vitellogenin synthesis