Role of allatostatin‐like factors from the brain of Tenebrio molitor females

The effect of brain extract from females of freshly emerged Tenebrio molitor on ovary, oocyte development, total protein content of hemolymph, and ovary was studied in 4‐day‐old adult mealworm females. Injections of extracts of 2‐brain equivalents into intact (unligatured) Tenebrio females did not affect ovarian and oocyte development. Injections of ligated females, however, with 2‐brain equivalents on day 1 and 2 after adult emergence strongly inhibited ovarian growth and oocyte development. At day 4, ligated and injected females did not develop their ovaries and pre‐vitellogenic oocytes were not found. The changes in ovarian development correlated with an increase in the concentration of soluble proteins in the hemolymph as compared with the saline‐injected controls. Additionally, a strong reduction of total protein content in ovarian tissue was observed. Reverse phase HPLC separation of a methanolic brain extract of T. molitor females showed that fraction 5 has a similar retention time to synthetic cockroach allatostatin. Fraction 5 was eluted at 12.88 min, which was closest to the internal standard Dippu‐AST I, which eluted at 12.77 min. An ELISA of fraction 5 from the methanolic brain extract using antibodies against allatostatins Grybi‐AST A1 and Grybi‐AST B1 from cricket Gryllus bimaculatus showed that fraction 5 cross‐reacted with Grybi‐AST A1 antibodies. The cross‐reactivity was similar to the synthetic allatostatin from D. punctata, which was used as a positive control. These observations demonstrate a possible role for allatostatin‐like brain factor(s) in regulating the reproductive cycle of Tenebrio molitor. © 2009 Wiley Periodicals, Inc.     

Plasticity and canalization in the control of reproduction in the lubber grasshopper

The ability to change reproductive tactics during adult developmentin response to environmental variation is predicted to enhancefitness. Many organisms show phenotypic plasticity early innon-embryonic development, but later exhibit phases of developmentalinflexibility (=canalization). Therefore, we studied reproduction-relatedhormones and proteins and their relationships to plasticityin the Eastern lubber grasshopper. Diet-switching experimentsdemonstrated plasticity early in the egg production cycle, buta switch to canalization late in the cycle. We measured developmentaltiters of 4 hemolymph compounds from single individuals fromadult molt until first oviposition. These 4 compounds were theegg-yolk precursor protein vitellogenin, juvenile hormone (thecentral regulator of insect reproduction), major hemolymph proteins,and ecdysteroids (the arthropod molting hormone that ultimatelyis stored in the egg). Using diet manipulations, we investigatedhow these developmental titers relate to the switch from plasticto canalized egg production. All 4 hemolymph compounds reachedtheir peak levels during the canalized phase, about 12 day beforeoviposition. Diet switches after these peak levels did not affectthe timing to oviposition. Therefore, these peak titers werephysiological events that occurred after the individual committedto laying. We compared these patterns in reproduction to thedevelopment toward adult molt, another major life-history eventin insects. We observed an extended canalized phase before theadult molt. This canalized phase always included a peak of ecdysteroids.The similar patterns in the physiology of these life-historyevents suggested that common limitations may exist in majordevelopmental processes of insects that are directed by hormones.     

Identification of juvenile hormone III in the hemolymph of Blattella germanica adult females by gas chromatography-mass spectrometry

Juvenile hormone III was identified in purified hemolymph extracts of adult females of the cockroach Blatella germanica by gas chromatography-mass spectrometry with chemical ionization and selected ion monitoring. Under these conditions, juvenile hormones I and II were not detected within the sensitivity ranges of this analytical method. For quantification purposes a 5,5-bisdeuterated analog of juvenile hormone III was synthesized and used as an internal standard. In general, juvenile hormone III titers obtained correlated with data on oocyte growth and with hormone titers found from in vitro corpora allata incubations along the first gonotrophic cycle.     

Effects of decapitation and ovariectomy on the regulation of juvenile hormone synthesis in the cockroach, Diploptera punctata

Corpora allata from Diploptera punctata females at adult ecdysis or at the end of the last-larval stadium, when implanted into decapitated females, underwent a cycle of juvenile hormone synthesis similar in timing and magnitude to that of glands implanted into control animals which had been starved and allatectomized. Starvation did not alter the cycle in rates of juvenile hormone synthesis of sham-operated animals.Decapitation of ovariectomized animals resulted in no cycle in rates of juvenile hormone synthesis by implanted adult corpora allata; however, implantation of an ovary along with the corpora allata into decapitated, ovariectomized hosts resulted in a cycle of juvenile hormone synthesis. In control animals, which retained their heads but were starved and allatectomized as well as ovariectomized, the implanted corpora allata showed a cycle of juvenile hormone synthesis only when implanted with an ovary. The maximal rates of juvenile hormone synthesis by the corpora allata in both experimental and control conditions were lower than normal, likely due to the repeated trauma of surgery. However, at no time from eclosion to the end of the first gonotrophic period was the brain necessary for the cyclic response of the corpora allata to the presence of the ovary.     

Evolutionary Endocrinology of Juvenile Hormone Esterase in Gryllus Assimilis: Direct and Correlated Responses to Selection

Hemolymph juvenile hormone esterase (JHE) activity on the third day of the last stadium in the cricket, Gryllus assimilis, exhibited a significant response to selection in each of six replicate lines. Mean realized heritability was 0.26 +/- 0.04. The response was due to changes in whole-organism enzyme activity as well as to changes in the proportion of enzyme allocated to the hemolymph compartment. In vivo juvenile hormone metabolism differed between some lines selected for high vs. low enzyme activity. Only minimal differences were observed between lines with respect to hemolymph protein concentration or whole-cricket activity of juvenile hormone epoxide hydrolase, the other major JH-degrading enzyme. Dramatic correlated responses to selection, equal in magnitude to the direct response, were observed for JHE activity on each of three other days of the last juvenile stadium. In contrast, no correlated responses in JHE activity were observed in adults. This indicates that JHE activities throughout the last stadium will evolve as a highly correlated unit independent of adult activities and the evolution of endocrine mechanisms regulating juvenile development can be decoupled from those controlling adult reproduction. This study represents the first quantitative-genetic analysis of naturally occurring endocrine variation in an insect species.     

Vitellogenins and vitellins in the bean bug,Riptortus clavatus (hemiptera: alydidae): Purification,immunological identification,and induction by juvenile hormone

Vitellogenins (Vgs) and vitellins (Vns) were purified from reproductive female adult hemolymph (HL) and newly laid eggs of the bean bug, Riptortus clavatus. They were separated into two (Vg-1 and 2) and three (Vn-1′, Vn-1, and Vn-2) sub-components, respectively, by ion exchange chromatography. Fused rocket immunoelectrophoresis using anti-(Vn-1) serum showed that they are distinguished clearly into two immunologically distinct groups, i.e., Vg-1/Vn-1/Vn-1′ and Vg-2/Vn-2. SDS-PAGE analysis showed Vn-1 (Vn-1′) and Vn-2 have the same and/or smaller subunit component polypeptides as Vg-1 and Vg-2, respectively. Vn-1′ has some lower molecular weight peptides than Vn-1. Quantitative rocket immunoelectrophoretic analysis showed that Vg-1 and Vn-1 (plus V-1′) were detected first on day 3 in the HL and day 4 in the ovary, respectively, after adult emergence, and increased by day 10 in non-diapause female adults. Vg-1 synthesis is induced in diapause female adults in 1 day after the treatment with juvenile hormone (JH) and JH analog (JHA) or in a few days after transfer from short day to long day conditions. © 1996 Wiley-Liss, Inc.     

Functional analysis of the allatostatin-A type gene in the cricket Gryllus bimaculatus and the armyworm Spodoptera frugiperda

Double-stranded RNA (dsRNA) gene interference is an efficient method to silence gene expression in a sequence specific manner. Here we show, that dsRNA targeting the allatostatin (AS)-A type (FGL/I/V-amide) gene of Gryllus bimaculatus (Ensifera, Gryllidae) and Spodoptera frugiperda (Lepidoptera, Noctuidae) injected into freshly moulted larvae or adult crickets and moths produced a rapid and long-lasting reduction in the mRNA levels in various tissues. The effect lasted up to 7 days. Following dsRNA injection, the juvenile hormone (JH) titers in the hemolymph were clearly raised in both species. AS-dsRNA injection induced a reduced body weight in larval and adult crickets and the imaginal moult was incomplete. Silencing allatostatin type-A expression also reduced the egg and testes development in crickets, and the oviposition rate was drastically diminished in both species.     

Localization and physiological effects of RFamides in the corpora allata of the cockroach Diploptera punctata in relation to allatostatins

The distribution of FMRFamide immunoreactivity in the brain-retrocerebral complex of adult female Diploptera punctata was examined. Immunoreactivity was observed in the brain and corpus allatum as well as in the corpus cardiacum. Immunoreactivity co-localized with allatostatin immunoreactivity within several lateral neurosecretory cells of the brain and in their endings within the corpus allatum. By in vitro radiochemical assay of juvenile hormone release, the effect of two native D. punctata RFamides, an FLRFamide (Leucomyosuppressin) and an FIRFamide were examined. The latter, for which the sequence (SKPANFIRFamide) is reported here, stimulated juvenile hormone release but acted only on corpora allata from females at the end of vitellogenesis (day 6). The interaction of these two RFamides and three D. punctata allatostatins, Dippu-AST 2, 5, and 7 were similarly examined. Only Dippu-AST 2 stimulated release of RFamides from the corpora allata and only on day 6 whereas both RFamides were able to attenuate the inhibitory activity of Dippu-AST 2.     

Regulation of vitellogenesis in the fall armyworm, Spodoptera frugiperda (Lepidoptera: Noctuidae)

Studies were undertaken to investigate vitellogenesis and its regulation in female adults of the fall armyworm, Spodoptera frugiperda. A single female-specific protein, likely to be the S. frugiperda vitellogenin (Vg), appeared approximately 5 h after adult eclosion in the hemolymph of virgin females. The concentration of the protein increased with age as sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) revealed. A protein with the same relative molecular mass was also present in egg extracts, but absent from hemolymph samples from male moths. The relative molecular mass of the designated S. frugiperda Vg was determined as 164.5+/-2.5 kDa. Vitellogenic oocytes became visible 36-48 h after emergence and egg deposition began on day 3 of adult life. Vg could not be detected in the hemolymph of females decapitated directly after eclosion. When decapitated virgin females were injected with the JH-mimic methoprene (MP), the level of Vg was comparable to that in non-decapitated moths, indicating that vitellogenesis in S. frugiperda depends on juvenile hormone (JH). However, the number of vitellogenic oocytes was somewhat lower than in non-decapitated virgin females. Injection of 20-hydroxyecdysone (20E) promoted Vg production to a similar extent in decapitated female moths, but in contrast to methoprene injection, treatment with 20E never resulted in the production of vitellogenic oocytes. In vitro cultivated ovaries of adult females dissected directly after eclosion produced lower amounts of ecdysteroids than those isolated on day 1 after emergence. Our results suggest a crucial role for 20E in the induction of vitellogenesis in the noctuid S. frugiperda, while JH seems to be essential for the continued uptake of Vg by developing oocytes and may trigger 20E biosynthesis in the ovary.     

Regulation of JH titers: The relevance of degradative enzymes and binding proteins

Juvenile hormones play a crucial role in development, metamorphosis, and reproduction of insects. This mini-review discusses the nature of the juvenile hormones identified in insects and their changes in concentration in the hemolymph during development and reproduction. The hemolymph titer is largely determined by the rate at which juvenile hormones are synthesized and released by the corpora allata, but other factors are also involved in titer regulation, such as the affinity and concentration of juvenile hormone binding proteins in the hemolymph and the rate of juvenile hormone degradation in hemolymph and tissues. Juvenile hormone specific esterases occur in hemolymph and tissues, whereas epoxide hydrolases, which may degrade the hormone, are exclusively tissue bound. The activities of these degradative enzymes and the concentration of binding proteins change during the insect life cycle and these changes are related to fluctuations in hormone titer. However, we are still a long way from understanding the subtle interactions between these components in regulation of juvenile hormone titers. In particular, our knowledge is hampered by lack of information about the types, concentrations, and affinities of intracellular juvenile hormone receptors. © 1996 Wiley-Liss, Inc.     

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.     

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.     

Simultaneous determination of molting and juvenile hormone titers of the greater wax moth

A simple and rapid extraction procedure was developed to determine simultaneously the molting hormone (MH) and juvenile hormone (JH) activity in a single insect tissue sample. From the onset of the last larval stage to adult eclosion of the greater wax moth, Galleria mellonella, three JH peaks were noted: at the time of the sixth larval ecdysis, 1 day before the seventh larval ecdysis, and at the time of adult eclosion. Three MH peaks were recorded for the male: at 1 day before the sixth larval ecdysis, 1 day before the seventh larval ecdysis, and 2 days after pupation. In the female, a fourth peak was shown at the time of adult eclosion. This fourth peak exhibits the highest molting hormone activity of all samples, 1600 Musca units/g of fresh tissue or an equivalent of 5.6 μg/g of ecdysterone. Eighty per cent of this MH accumulated in the ovary. The significance of MH and JH titers as related to the endocrine regulation of development is discussed in the light of this finding.     

The influence of drone physical condition on the likelihood of receiving vibration signals from worker honey bees, <Emphasis Type="Italic">Apis mellifera</Emphasis>

Honey bee workers will perform vibration signals on adult drones, which respond by increasing the time spent receiving trophallaxis. Because trophallaxis provides the proteins for sexual maturation, workers could direct vibration signals towards drones showing certain physical characteristics, potentially influencing drone development and colony reproductive output. We examined the influence of drone condition on the likelihood of receiving vibration signals by comparing body weight, protein concentrations, and hemolymph juvenile hormone (JH) titers between drones that received the vibration signal and same-age, non-vibrated controls. Vibrated and control drones did not differ in total body weight, abdomen weight, abdomen-to-body weight ratio, total protein concentrations, or hemolymph JH titers. In contrast, vibrated drones had significantly lower thorax weight and smaller thorax-to-body weight ratios compared with controls. Because relative thorax weight may affect flight ability and mating success, workers could use the vibration signal to increase the care received by less developed drones, potentially contributing to the production of greater numbers of competitive males. However, the differences in thorax weights, while significant, were very small, and it is unknown how such slight differences might be assessed by workers or affect drone performance. Nevertheless, vibration signals performed on drones may provide opportunities for exploring the effect of the quality of reproductive individuals on caste interactions in honey bees.     

Juvenile hormone titers in virgin and mated Choristoneura fumiferana and C. rosaceana females: assessment of the capacity of males to produce and transfer JH to the female during copulation

We used a radioimmunoassay (RIA) to assess the effect of mating on juvenile hormone (JH) titer in females of the tortricid moths Choristoneura fumiferana and C. rosaceana. Virgins had undetectable levels of JH in their hemolymph on the 5th day of the pupal stage but titers rose to 1-4 and 0.2-0.5 ng JH II eq./ml, respectively, after emergence. On days 1, 3 and 5 following copulation, females of both species had higher JH titers than virgins of the same ages, with the greatest difference between virgin and mated females observed on day 3 for C. fumiferana and on day 5 for C. rosaceana. This increase was apparently not the result of a male-to-female transfer of JH during copulation since: (i) the accessory sex glands (ASGs) of males of both species displayed a very limited ability to convert JH acid into JH, (ii) ASGs produced no JH when incubated in vitro in the presence of L-[methyl-(3)H]-methionine, (iii) ASGs of males injected with L-[methyl-(3)H]-methionine 24 h prior to dissection contained no JH-associated radioactivity, and (iv) freshly formed spermatophores dissected out of females mated to similarly injected males contained no trace of radioactive JH. In addition, the JH content of ASGs and spermatophores, as measured by RIA, was not higher than that of virgin-female hemolymph, on a per-mg basis. However, in contrast with earlier findings in other species of moths, the CA of male C. fumiferana and C. rosaceana maintained in vitro in the presence of tritiated methionine produced and released JH I, JH II and JH III in quantities and proportions similar to those reported for female glands.     

外用保幼激素与早熟素对丽斗蟋翅二型个体飞行与生殖发育间生理权衡的影响（英文）

为探讨丽斗蟋Velarifictorus ornatus翅二型个体飞行与生殖发育间生理权衡的内分泌控制机理, 本研究调查了外用保幼激素Ⅲ(JH-III)与早熟素Ⅰ(P-I)对丽斗蟋翅二型个体飞行肌与生殖发育的影响。结果表明： 成虫羽化后当日分别注射1, 5, 10和25 μg保幼激素7 d后, 显著促进了丽斗蟋长翅雌虫卵巢发育, 卵巢重量分别从对照组的16.8±11.4 mg/♀增加到43.9±10.7, 33.6±14.0, 56.8±7.6和 39.3±30.7 mg/♀; 但对卵巢内怀卵量无显著影响。相反, 外用保幼激素则诱发飞行肌降解, 1, 5和10 μg JH-III处理组飞行肌重量分别下降为12.9±4.7, 11.7±4.8和8.8±0.8 mg/♀, 显著低于对照组飞行肌重量(17.7±1.6 mg)。对短翅雌虫注射P-I时, 当注射的剂量超过50 μg/♀时, 能够显著抑制卵巢发育, 而低于50 μg/♀时则对卵巢发育无明显影响。外用JH-III对丽斗蟋长翅雄虫飞行肌、 精巢、 附腺的发育无明显影响; 外用P-I对短翅型雄虫精巢与附腺的发育也无明显影响。因此, 丽斗蟋翅二型雌虫与雄虫的飞行肌与生殖器官的内分泌控制机理可能存在差异。     

Hormonal control of body-color polymorphism in Locusta migratoria: interaction between

The effects of injection of [His(7)]-corazonin and juvenile hormone (JH) III on the body color in L. migratoria were investigated using albino and normal (pigmented) nymphs. Most albino nymphs turned green in the fourth instar if injected with JH III during the last 2 days of the previous instar. When albino third instar nymphs injected with 10 pmol of [His(7)]-corazonin on different days were treated with 100 μg of JH III on day 3.5, they developed various body colors in the following nymphal instar: those injected with [His(7)]-corazonin during the first 2 days developed very dark green or black color, whereas some of those injected after this period turned green and their legs and ventral side of the body were variously pigmented, the coloration being similar to green solitary individuals often found in the field. Field-collected brown solitary nymphs injected with 1 nmol of [His(7)]-corazonin and kept individually, turned reddish without any black spots in the following nymphal instar when the ecdysis occurred within 1 day after injection. Injection of [His(7)]-corazonin 2 days before the following ecdysis induced black patterns on an orange background color, the coloration characteristic of gregarious forms. Similar injections into field-collected green solitary nymphs also induced black patterns but the rest of their body remained green. These results may indicate that the temporal changes in the hemolymph titers of [His(7)]-corazonin and JH play an important role in the control of body-color polymorphism in this locust.