Quantitative determination of the juvenile hormones in the haemolymph of Locusta migratoria during normal development and after implantation of corpora allata

Simultaneous quantitative determination of the three naturally occurring juvenile hormones in insects (JH-I, JH-II and JH-III) was performed on haemolymph samples of both normally developing locusts and locusts implanted with active corpora allata, using capillary gas chromatography with electron capture detection.In fourth instar female larvae, 24–48 hr after the third ecdysis, as well as in adult females, 18 days after the imaginal ecdysis, only JH-III was detected. In fifth instar female larvae JH-III was present in very low concentrations, if at all.After implantation of four pairs of corpora allata taken from young fourth instar female larvae or one pair or corpora allata taken from adult females into fifth instar female larvae 0–24 hr after ecdysis, an elevation of the JH-III titre was observed. Neither JH-I nor JH-II could be detected. The amount of JH-III, already elevated 2 hr after implantation, remained high for several days in comparison to that of control insects. On the third day after the subsequent moult the JH-III level was comparable to that of normally developing fifth instar larvae. Factors involved in the achievement of the haemolymph JH-titre are discussed.     

Activité comparée des hormones juvéniles en C-18 (JH-I) et en C-16 (JH-III) chez Locusta migratoria

The comparative activity of C-16 and C-18 juvenile hormones is studied in Locusta migratoria on four well-known physiological functions of the corpora allata by means of a single injection of a solution of hormone in oil at doses of 50, 100, and 200 μg/animal. Judged on morphogenesis and pigmentation, JH-I (C-18 JH) as well as JH-III (C-16 JH) show a real juvenilizing effect. The potency of JH-I is much higher than that of JH-III because the first hormone only produces supernumerary larvae and most modified green animals. JH-I counterbalances exactly the lack of CA on the gonadotropic function whereas JH-III allows only about 50 per cent development of oöcytes. The cardiotropic activity of JH-I is similar to that of the CA. The C-18 juvenile hormone is until now the only studied ‘juvenilizing’ compound which increases the heartbeat. JH-III appears to have no noticeable effect on the heart.These results combine to prove that only JH-I has an activity similar to the Locusta corpora allata on morphogenesis, pigmentation, ovarian maturation, and the cardiac activity of L. migratoria.     

Activite de l'hormone juvenile en C17 (JH-II) chez Locusta migratoria

The effects of C₁₇ juvenile hormone (JH-II) have been investigated in Locusta on morphogenesis, ovarial development, and pigmentation, by means of injections in oil. These effects have been compared with those of injecting C₁₈ juvenile hormone (JH-I) and of implanting corpora allata into Locusta. JH-I and JH-II are similar in their effects upon morphogenesis and pigmentation, and also on ovarial development in which JH-III has been found to be more effective in other insects. Injections of JH-I and JH-II have similar effects to those seen after implanting corpora allata. However in experiments on heart beat (in which the corpora allata have been shown to be involved) JH-I is the only substance to increase the rate of heart beat in the same way as active corpora allata. These observations are discussed, and it is concluded that JH-I is the hormone with effects nearest to those of the corpus allatum hormone itself.     

The role of

The effect of [His(7)]-corazonin on the body color in Locusta migratoria was examined by varying the injected dose and the time of injection in both an albino and a normal (pigmented) strain. Albino nymphs injected with a high dose (100pmol) of [His(7)]-corazonin at the beginning of the third instar turned completely black in the following instar, whereas those injected with the same dose in the middle of the instar developed black patterns with an orange background color, the body coloration characteristic of normal gregarious (crowded) individuals. Injection at the end of the third instar induced a reddish color with few black spots. Irrespective of the time of injection of the peptide, most of these individuals became completely black after ecdysis to the fifth instar. A similar result was obtained with a lower dose (1pmol), although the color expressed was lighter. In the normal strain, injection of 1nmol or 100pmol into crowded third instar nymphs also caused most of them to become completely black in the fourth and fifth instars, but a lower dose apparently had no influence. These results suggest that the temporal changes in hemolymph titer of [His(7)]-corazonin are important in the expression of body color in L. migratoria.     

Compactin inhibits insect HMG-CoA reductase and juvenile hormone biosynthesis

The activity of 3-hydroxy-3-methylglutaryl CoA reductase in homogenates of the corpora allata of the tobacco hornworm, $\text{Manduca sexta}$, was competitively inhibited by compactin. The K_I for the sodium salt form of compactin was 0.9 nM for the reductase from both male and female corpora allata. In intact female corpora allata juvenile hormone biosynthesis was also inhibited by approximately 50 percent at 10 nM compactin. Following injection with compactin, darkening of the cuticle, an indication of juvenile hormone deficiency, was observed in larvae after ecdysis from third to fourth instar. Hence, compactin shows potential as an inhibitor of insect growth and development.     

Inhibition of Farnesoic Acid Methyl transferase by Sinefungin

Sinefungin inhibited the S-adenosylmethionine-dependent farnesoic acid methyltransferase in a cell-free system containing a homogenate of corpora allata from female locusts, Locusta migratoria. The enzyme catalyzed the penultimate step of juvenile hormone biosynthesis in the insects. Culturing corpora allata in the presence of sinefungin greatly suppressed juvenile hormone production. The following in vivo effects were visible after injection of the inhibitor: increase in mortality and reduction of total haemolymph protein titer and ovary fresh weight, as well as length of terminal oocytes. Attempts to reverse these effects by topical application of the juvenile hormone analog ZR-515 (methoprene) were only partly successful. Therefore, the in vivo effects may be due to a general inhibition of methyltransferase enzymes in the insect. Sinefungin appeared to be of potential interest as the first representative of a new class of insect growth regulators.     

The activity of the corpora allata in the fourth and fifth larval instars of the migratory locust

The presence of juvenile hormone in the haemolymph of larvae of Locusta has been detected by a modified Galleria bioassay and these results are compared with indirect methods of estimating corpus allatum activity. Juvenile hormone is present in the haemolymph during the fourth larval instar except on the last day of the instar, and is absent from the haemolymph of the fifth and final larval instar except on the last day of the instar. Changes in the volumes of the corpora allata simply reflect changes in the growth of the whole insect and are of no value in predicting endocrine activity. Changes in the size of the cells of the corpora allata can be correlated with the presence of juvenile hormone in the haemolymph in the fourth larval instar, but similar changes in cell size occur in the fifth larval instar when no juvenile hormone is present in the haemolymph. The effects of the implantation of corpora allata are unreliable as estimates of corpus allatum activity as isolated corpora allata from fifth instar larvae release juvenile hormone. Indirect methods of measuring corpus allatum activity are thus shown to be unreliable. The R_f value of Locusta juvenile hormone as determined by thin-layer chromatography differs from that of Roeller's juvenile hormone, suggesting that the two hormones might be chemically distinct.     

The absolute configuration of precocene I dihydrodiols produced by metabolism of precocene I by corpora allata of Locusta migratoria, in vitro

The corpora allata from adult female Locusta migratoria metabolize precocene I (7-methoxy-2,2-dimethyl-2H-benzo [b]pyran to cis- & trans-precocene I dihydrodiols (3,4-dihydro-7-methoxy-2,2-dimethyl-2H-benzo [b]pyran-3,4-diol). Derivatization of the dihydrodiols with (-)menthoxy acetyl chloride allowed complete resolution of all four optical isomers. When [4-3H]-precocene I was incubated in vitro with Locusta migratoria corpora allata, it was metabolized stereospecifically to (-)trans-(3R,4S) and (+)cis-(3R,4R) dihydrodiols. Approximately half the precosyl residues bound to cellular macromolecules were discharged by heating to 95 degrees C at neutral pH, as dihydrodiols of the same stereochemistry.     

Influence of a juvenile hormone analogue on vitellogenin synthesis and oögenesis in larvae of Nauphoeta cinerea

In experiments on the synthesis of the vitellogenic protein, farnesylmethylester, a juvenile hormone (JH) analogue, was injected into female Nauphoeta cinerea larvae at various stages during their development. Two and 4 days after injection, 2 μl of haemolymph were assayed in a vitellogenin immunodiffusion test. In second last and last instar larvae less than 6 days before adult ecdysis, high doses (100 μg) of farnesylmethylester are necessary to induce vitellogenin synthesis, whereas older last stage larvae and decapitated adults respond to small doses (1 μg) with the synthesis of vitellogenin. It seems that the competence to synthesize the vitellogenic protein changes at the time of induction of the moulting process. If farnesylmethylester is injected into last instar larvae with a supposedly high titre of ecdysone, the vitellogenic protein can be detected in the haemolymph of a small percentage of animals only.Oöcyte maturation can be observed in last instar larvae injected after the fifth to ninth day with farnesylmethylester. The observed volume changes of the corpora allata suggest that an absence of JH for a short time is necessary for the oöcytes to become competent to grow. Last instar larvae treated with farnesylmethylester become larval-adult intermediates with partly developed oöcytes, demonstrating a simultaneous juvenilizing and gonadotropic influence of the JH analogue. In last instar larvae injected with farnesylmethylester a partial degeneration of already maturing oöcytes is induced at the time when the ecdysone titre is supposedly high and the possible reasons for this are discussed.     

The Release of Isoprenoids by Locust Corpora Allata in vitro

Corpora allata of the African locust Locusta migratoria, incubated in vitro, biosynthesized together with juvenile hormone III (JH-III), several molecules labelled by both [2-(14)C] sodium acetate and L-[methyl-(3)H] methionine. By a combination of chromatographic procedures including reverse phase-high-performance liquid chromatography (HPLC), normal phase HPLC and thin layer chromatography (TLC), four labelled compounds were separated. They were isoprenoids, as revealed by inhibition of their synthesis by the hydroxy-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitor fluvastatin and restoration by exogenous mevalonolactone. They could be produced by incubating corpora allata with JH-III, suggesting that they were JH-III metabolites. They were produced by the corpora allata from both males and females and released into the incubation medium. Their rate of synthesis changed considerably depending on the sample, and in some cases they were the major isoprenoic products of the corpora allata.     

Effects of juvenile hormone on the secretion of prothoracicotropic hormone in the last- and penultimate-instar larvae of the silkworm Bombyx mori

The effect of juvenile hormone (JH) on the secretion of the prothoracicotropic hormone (PTTH) was investigated, by examining the changes in hemolymph PTTH titer after the topical application of JH-I on the larvae of the silkworm, Bombyx mori. The titer of PTTH was determined by the time-resolved fluoroimmunoassay. JH-I application at very early stages of development in the fifth (last) instar resulted in a significant increase in the PTTH titer, but this effect became less evident thereafter. After the onset of wandering (day 6 of the fifth instar), JH-I did not affect the hemolymph PTTH titer. JH-I application on day 5 resulted in the delay of spinneret pigmentation on day 6, which is induced by an increase in the ecdysteroid titer on day 5 and is the first visible indication of larval-pupal transformation. However, the JH-I application did not suppress the increase in either PTTH or ecdysteroid titer on day 5, suggesting that JH-I acts on the spinneret to inhibit the response of the tissue to ecdysteroids. JH-I also exhibited a PTTH titer-elevating effect in the fourth instar. These results suggest that JH has a role as a potent stimulator of PTTH secretion in both the penultimate and last instar of the silkworm.     

Some effects of amputation of the antennae on pigmentation, growth and development in the locust, Schistocerca gregaria

ABSTRACT. Removal of the antennae from Schistocerca gregaria early in the third or fourth instar resulted in fifth instar nymphs with a green haemolymph and cuticle. Antennectomized adults had a lower somatic dry weight and a smaller fat body than operated control insects. In addition, their rate of sexual development increased and some of their morphometric parameters were altered. Implantation of corpora allata into fourth instar nymphs induced a green coloration of the haemolymph after a few days. It is suggested that antennectomy of Schistocerca nymphs resulted in an increased effectiveness of the corpus allatum hormone with its concomitant effects on nymphal pigmentation, growth and development, and adult morphometries. It is further suggested that antennectomy of crowded locusts may mimic, for them, the uncrowded condition, by reducing sensory input.     

Degradation of juvenile hormone and methylation of juvenile hormone acid by corpora cardiaca–corpora allata of the cockroach,Nauphoeta cinerea: II. Physiological aspects

In vitellogenic females of Nauphoeta cinerea, injected (10R)-juvenile hormone (JH) III was degraded more rapidly than racemic JH III: we measured a half-life of 21 min (with or without coinjection of lipophorin) for the former and 24 min (with coinjection of lipophorin) and 43 min (without coinjection of lipophorin) for the latter. One to two hours after injection, JH III acid was the major metabolite observed; in addition, several highly polar products were found. The half-life of injected racemic JH III acid was 19 min with coinjection of lipophorin and 4 min without. The JH III acid titer in hemolymph was low (around 5–10 pmol/ml) in last instar larvae and previtellogenic and pregnant females and reached higher values (40–100 pmol/ml) in vitellogenic and ovulating females. Racemic JH III acid could be methylated in vitro to JH III by corpora cardiaca–corpora allata (CC-CA) from penultimate instar larvae and females at stages between adult ecdysis and ovulation and at the very end of pregnancy, but not by CC-CA from last instar larvae and adult females at earlier stages of pregnancy. This indicates that CC-CA are capable of methylating JH III acid only at stages when JH III is detectable in the hemolymph. In double-labelling experiments with CC-CA from vitellogenic females and L-[¹⁴C]methionine and [³H]JH III acid as precursors, we observed that only a small proportion (1–8%) of total biosynthesized JH III was derived from JH III acid when the latter was present at physiological concentration. This suggests that in vivo recycling of JH III acid by CC-CA plays only a minor role in the regulation of the titer of JH III and JH III acid.     

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.     

Peptidomics of the locust corpora allata: identification of novel pyrokinins (-FXPRLamides)

The peptidomes of the corpora allata of Locusta migratoria and Schistocerca gregaria were investigated by both matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) and nanoscale liquid chromatography quadrupole time-of-flight tandem mass spectrometry (nanoLC-Q-TOF MSMS). The pyrokinin (-FXPRLamide) family seems to be predominant. In addition to the known pyrokinins, we de novo sequenced four pyrokinins in L. migratoria and five in S. gregaria. In addition, one pyrokinin-like peptide (-PRLamide) was identified in S. gregaria. Besides the -(FX)PRLamides, FLRFamide-1, the allatostatins (A family) and numerous as yet unidentified peptides are also present in the corpora allata.     

Hormonal control of larval coloration in the armyworm, Leucania separata

Leucania separata larvae show various degrees of darkening depending on the population density. A ligature applied behind the thorax of crowded or yellow solitary larvae caused black or reddish brown pigmentation in the anterior part after the larval ecdysis. Extirpation of the brain, the corpus cardiacumcorpus allatum complexes, or the suboesophageal ganglion reduced the degree of melanization in the crowded larvae, lack of the suboesophageal ganglion having a particularly striking effect. Transplantation of 3 complexes of brain-corpora cardiaca-corpora allata-suboesophageal ganglion induced intense black pigmentation in the isolated abdomens of crowded larvae and reddish brown pigmentation with some melanization in the isolated abdomens of yellow solitary larvae, though the melanization in the latter was weaker than in the former. Implantation of these organs or of the suboesophageal ganglia into yellow solitary larvae caused black and reddish brown pigmentation after a larval ecdysis. In the pieces of integument implanted into the body cavity of crowded larvae, melanization occurred after ecdysis, whereas it did not occur in most of the fragments implanted in yellow solitary larvae. Transplantation of corpora allata and other organs from solitary larvae or injection of juvenile hormone into crowded larvae did not inhibit melanization.     

Caste Determination in Bombus terrestris: Differences in Development and Rates of JH Biosynthesis between Queen and Worker Larvae

To study the possible role of juvenile hormone in caste determination in Bombus terrestris, we measured development and rates of juvenile hormone biosynthesis in vitro in larvae destined to develop into either workers or queens. Larvae of both castes developed through four instars and had the same growth rates. However, the duration of the instars was longer for queen larvae, and their head width at the third and fourth instars was significantly larger. After validating the well-known radiochemical assay of JH for bumble bee larvae, we show that worker larvae corpora allata exhibited a constant and low rate of JH biosynthesis, never more than 5 pmol JH/h/pair. Queen larvae, in contrast, had two peaks of JH biosynthesis: a small one during the first instar, which has previously been correlated with caste determination; and a large peak, previously undetected, above 40 pmol JH/h/pair, during the second and third instars. We suggest that caste determination in this species is mediated by JH and that the duration of larval instars is a key factor. The possibility that the queen influences caste determination via an effect on instar duration is also discussed. Copyright 1997 Elsevier Science Ltd. All rights reserved     

Endocrine interactions controlling the larval diapause of the southwestern corn borer, Diatraea grandiosella

The effect of hormone treatments on larvae of the southwestern corn borer, Diatraea grandiosella, was examined to explore endocrine interactions which regulate its mature larval diapause. This species is especially suitable for investigating the endocrine control of larval diapause because it ecdyses from a spotted to an immaculate morph at the onset of diapause, and the immaculate morph may undergo up to three stationary ecdyses during diapause. The response of prediapause larvae to a β-ecdysone injection showed that the larvae have the potential to transform into the immaculate morph early in the final larval instar, but under normal conditions this ecdysis occurs after larvae reach maturity. Since a high rate of pupation occurred among early diapause larvae which received a head ligature, followed 17 days later by a β-ecdysone injection, diapause larvae retain active corpora allata. Since a head ligature prevented diapause larvae from responding to repeated topical applications of a juvenile hormone (JH) mimic or JH 1, the intermediate titer of JH associated with larval diapause may inhibit the synthesis or transport of ecdysiotropin, or its release from the corpora cardiaca. Current results suggest, therefore, that an interaction between the cerebral neurosecretory system and the corpora allata regulates the initiation, maintenance, and termination of this larval diapause.     

Contribution à l'étude infrastructurale du système neurosécréteur rétrocérébral chez Locusta migratoria migratorioides (R. et F.)

Résumé L'étude infrastructurale des nerfs cardiaques afférents et des nerfs allato-cardiaques qui entrent dans la constitution du système neurosécréteur rétrocérébral de Locusta migratoria migratorioides (R. et F.) révèle l'existence des trois types de fibres neurosécrétrices définis dans les corpora cardiaca. Une quatrième catégorie de fibres caractérisées par la présence de vésicules claires existe dans les nerfs allato-cardiaques et dans les corpora allata. L'origine des fibres et l'évolution des grains de neurosécrétion au cours de leur transit sont envisagées.

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Ultrastructural study of the retrocerebral neurosecretory system in Locusta migratoria migratorioides (R. et F.)II. Neurosecretory pathways

Summary An ultrastructural study of the nervi corporis cardiaci and nervi corporis allati, which are part of the retrocerebral neurosecretory system of Locusta migratoria migratorioides, reveals the existence of three neurosecretory fiber types. A fourth neurosecretory fibertype with electron lucent vesicles is also present in the nervi corporis allati and in the corpora allata. The fibers are characterized by differences in the size and electron opacity of the neurosecretory granules. The origin of the various neurosecretory fiber types and the evolution of the neurosecretory granules are discussed.

     

Regulation of prothoracic gland ecdysteroidogenic activity leading to pupal metamorphosis

The prothoracic glands of early last (fifth) instar larvae of the silkworm are inactive with regard to ecdysteroidogenesis and unresponsive to prothoracicotropic hormone (PTTH) [J. Insect Physiol. 31 (1985) 455]. In an attempt to elucidate the hormonal mechanisms that cause the inactivity, we compared the effects of PTTH, dibutyryl cyclic AMP (dbcAMP), a cAMP phosphodiesterase inhibitor (IBMX), juvenile hormone analogue (JHA) and 20-hydroxyecdysone (20E) on secretory activity of the third, fourth and fifth instar glands. Among the factors examined, feedback inhibition by 20E was indicated to be the most likely factor. Inhibition was moderate in the third and early fourth instars while 20E strongly inhibited the glands of middle fourth instar larvae. The inhibitory effect of 20E was reduced by removal of the brain and corpora allata. Once the glands were suppressed by 20E to the degree of exhibiting neither secretory activity nor responsiveness to PTTH, dbcAMP or IBMX did not elicit ecdysone secretion at all. Thus the feedback inhibition may shut down ecdysteroidogenesis although it is obscure whether it affects the intracellular transductory cascade from the PTTH receptor through cAMP. Taken together, this evidence suggests that inactivity of the gland in the early fifth instar is brought about by feedback inhibition of the glands by 20E occurring in the late fourth instar, and that this inactivity is maintained by the juvenile hormone found in the early fifth instar.