Spiny lobster development: mechanisms inducing metamorphosis to the puerulus: a review

This review outlines current knowledge of mechanisms effecting metamorphosis in decapod crustaceans and insects. The comparative approach demonstrates some of the complexities that need resolving to find an answer to the question raised frequently by ecologists: “What triggers metamorphosis in spiny lobsters?” It is evident that crustacean moulting and metamorphosis are genetically controlled through endocrine systems that mediate gene expression. The molecular mechanisms underlying these developmental processes have been studied intensively in insects, particularly in the fruitfly, Drosophila melanogaster (Diptera), and some lepidopteran species. Comparatively, there is minimal information available for a few decapod crustacean species, but none for spiny lobsters (Palinuridae). Nothing was known of hormone signalling transduction pathways, via nuclear receptors (NRs) and gene activation during larval moults in palinurids—until a recent, ground-breaking study of early phyllosomal development of Panulirus ornatus by Wilson et al. (Rock Lobster Enhancement and Aquaculture Subprogram. FRDC Project 2000/263, Australian Govt, Fisheries Research and Development Corporation and Australian Institute of Marine Science, Nov 2005). Their study not only identified homologues of five hormone NRs of D. melanogaster, but also patterns of gene regulation showing strong similarities to those of gene expression found in insect larval development. Their results indicated that control of moulting and metamorphosis in palinurids closely parallels that in insects, suggesting that insects can serve as model systems for elucidating molecular mechanisms in larval decapods. In insects and crustaceans, the steroid hormone, ecdysone, (20E) initiates moulting. In insects, juvenile hormone (JH) mediates the type of larval moult that occurs, either anamorphic or metamorphic. The latter results when the level of JH in the haemolymph drops in the final larval instar. High levels of JH inhibit the metamorphic moult during insect larval development. The interaction of 20E and JH is not fully understood, and the operative molecular mechanisms are still being elucidated. No nuclear receptor for JH has been identified, and alternative JH signalling pathways await identification. In decapod crustaceans, methyl farnesoate (MF), a precursor of JH, replaces the latter in other functions mediated by JH in insects; but there is little evidence indicating that MF plays a similar ‘antimetamorphic’ role in decapod larval moults.     

Behavioural changes are related to moult regulation in the cockroach, Periplaneta americana

Abstract. Larval holometabolous insects show changes in behaviour (e.g. start of wandering and spinning) in specific periods of the moulting cycle in relation to definite ratios of juvenile hormone and moulting hormone (ecdysone). In hemimetabolous insects no such changes in behaviour are known. It should be investigated whether the cockroach Periplaneta americana shows changes in locomotor activity and in food and water consumption in relation to periods of ecdysone production during the last larval stage. Within a mean duration of the last larval stage of 30 days there were two periods of reduced locomotor activity: on day 9 and between days 13 and 17. From days 12–13 food consumption decreased by c . 40% up to the day 18. Water consumption decreased between days 9 and 18 by about 55%. Peaks of ecdysone production appeared after these changes of behaviour in each case. Therefore in larval Periplaneta ecdysone seems not to trigger these behavioural changes.     

Hormonal regulation of pupation in the codling moth, Laspeyresia pomonella

ABSTRACT. According to the different reactions to the juvenoid Altosid®, the last larval instar (L₅) of Laspeyresia pomonella (L.) (Tortricidae) reared under 'long day' conditions (constant light) was subdivided into three sensitive phases: an additional larval instar, a larval–pupal intermediate, or a pupa. Under short day conditions, the prothoracotropic effect of juvenile hormone (JH) in L₅, which have a continuous high titre of JH during the whole instar, indicated that it is not a particular titre of JH but a rise in the titre that can induce the production of moulting hormone. Neck-ligation experiments showed that JH acts not directly on the prothoracic glands but via the head, probably via the neurosecretory system. The meaning of the JH-peak in mature L₅ reared under long days was determined either by injections with the anti-JH, precocene II, in combination with applications of Altosid, or by forcing precocene-treated larvae to a precocious moult by injecting them with ecdysterone. Precocene delayed, and JH accelerated pupation if administered 4.5 days after the L₅ -moult. JH was also found to stimulate the growth and differentiation of the imaginal discs. Moulting hormone in long-days reared insects was detected one day after the larvae had spun their cocoon, with a maximum on the second day after spinning. The hormone was also present in freshly moulted pupae. Neck-ligation of mature larvae indicated that the delay between activation of the prothoracic glands and the production of an effective amount of moulting hormone is less than one day.     

Composition,synthetic and cytolytic activities of Galleria mellonella silk glands during the last-larval instar under the action of juvenile hormone

Within the first 48 hr of the last-larval instar of Galleria mellonella the silk glands grow but silk production is restrained. This ‘preparatory phase’ of the glands is probably maintained by juvenile hormone. Silk production and accumulation are stimulated in the ‘accumulation phase’ between 60 and 132 hr by unknown factors in the absence of juvenile hormone. The rate of RNA synthesis culminates at 84 hr but the RNA content increases until the end of cocoon spinning at 144 hr. In the following ‘regression phase’ (144–160 hr), when the glands exhibit high activities of acid and alkaline DN-ases and of acid phosphatase, the RNA and protein contents rapidly decrease, but that of DNA remains high. This phase is typical of moulting insects, is independent of juvenile hormone, and seems to be caused either by an increase in ecdysteroids or by lack of nutrients. The following ‘degeneration phase’ occurs when the surge of ecdysteroids terminates the larval-pupal transformation. Disintegration of silk glands by autolysis and phagocytosis is completed after pupal ecdysis (180 hr). Treatment of larvae with a juvenoid (ZR 512) at 48 or 132 hr in the last instar dramatically alter the composition, synthetic and cytolytic activities of silk glands. At the next ecdysis the glands attain a state very similar to that of the preparatory phase. They are capable of intensive silk production and completion of developmental cycle when the supernumerary larvae prepare for pupation. The results indicate that juvenile hormone can reverse the development of the silk glands.     

The role of juvenile hormone in the larval diapause of the European corn borer,Ostrinia nubilalis

The possible role of juvenile hormone (JH) in the induction and termination of larval diapause in the European corn borer, Ostrinia nubilalis, was investigated using topical applications of both JH I and a JH mimic as well as by monitoring JH titers with the Galleria bioassay. Neither JH nor the JH mimic ZR515 was capable of influencing diapause termination when administered topically. The Galleria bioassay revealed little or no JH in the hemolymph of mid diapause (>30 days) insects, indicating no demonstrable role for JH in diapause maintenance. When ZR515 was administered to nondiapause, newly ecdysed fifth instar larvae the pupal molting cycle was delayed. By use of photoperiodic regimes we were able to show that the molting delay was not equivalent to diapause induction. The Galleria bioassay showed differences in JH titer profiles between diapause and nondiapause animals during the final larval stadium. The nondiapause insects showed titers that decline rapidly to trace amounts following the molt to fifth instar then rose prior to pupation. The diapause insects had generally higher titers and exhibited a more gradual decline after the molt. No evidence was obtained to support the hypothesis that JH plays a key role in the induction, maintenance, or termination of larval diapause.     

Impact of Lantana camara hexane extract on survival,growth and development of Dysdercus koenigii Fabricius (Heteroptera: Pyrrhocoriedae)

Present research work investigated the impact of hexane extract of Lantana camara leaves on the survival, survival duration, growth and development of the Dysdercus koenigii. Newly emerged fifth instar nymphs were exposed to nine concentrations viz. 10%, 5%, 2.5%, 1.25% 0.1%, 0.05%, 0.025%, 0.0125% and 0.00625% of the extract by ‘dry film residual method’ for 24 h. The results indicated that the survival and the growth of the nymphs decreased with increasing concentrations of the L. camara extract. The nymphs presented developmental malformation including incomplete moulting followed by death of the moulting nymphs, supernumerary nymphal instars, adults with wing deformities, and adults with exuviae attached to the body. The GC–MS analysis of the extract indicated presence of phytoconstituents with insecticidal activities, and intermediates of the juvenile hormone biosynthetic pathway. It was surmised that these intermediates individually or synergistically influence JH biosynthesis. L. camara extract causes mortality, inhibits growth and development and results in developmental anomalies in the D. koenigii thus indicated its potentials in the ‘integrated pest management’.     

Juvenile hormone and photoperiodically controlled polymorphism in Aphis fabae: Postnatal effects on presumptive gynoparae

Long days (short nights) (LD 16:8) and high temperatures (> 15°C) have an apterizing effect on the short day (LD 12:12) induced, presumptive gynopara of Aphis fabae. Transfer of presumptive gynoparae to long days (15°C) or to 25°C (short days) at varying times during postnatal development demonstrate that the adult form is determined by the second day of the second instar, i.e. 5 days after birth at 15°C. Transfer on day 1 induces maximum apterization with the proportion of aphids affected decreasing with age at transfer.Apterization induced by long days immediately after birth can, to some extent, be cancelled by return to short days but only up to day 4. Thus long days are morphogenetically more potent than short days at the beginning of larval development. At temperatures above 15°C the proportion of aphids apterized increases almost linearly.Apterized insects can be distinguished from juvenilized insects in the fifth-instar. Topical application of juvenile hormone (JH) induces both apterization and juvenilization of presumptive gynoparae but at different times during larval development, JH treatment during the early-instars promotes apterization but induces little juvenilization, whereas maximum juvenilization, without apterization, is produced by middle-instar treatment. The apterizing effects of JH are, thus, not due to its neotenic action.The response profile of JH-induced apterization is similar to that observed with long days and 25°C. It is suggested that such conditions increase endogenous JH levels in A. fabae. The three naturally occurring JH's differ in activity in the order JH I > JH II > JH III. Both long-day and JH-apterized insects switch from the normal ovipara production of the adult gynopara to vivipara production.     

The hemolymph JH titer exhibits a large-amplitude, morph-dependent, diurnal cycle in the wing-polymorphic cricket, Gryllus firmus

The hemolymph juvenile hormone (JH) titer was measured in over 500 flight-capable and flightless, adult female Gryllus firmus at 3-6 h intervals during each of days 2-8 of adulthood. The flight-capable morph exhibited a large-amplitude daily cycle in the hemolymph JH titer, while the flightless morph exhibited a barely perceptible cycle. The JH titer cycle was observed on all days in the flight-capable morph, but the large amplitude cycle (>15-20 fold increase in mean titer; >100-fold increase in some individuals), began on day 5. For both the large and small amplitude cycles, the JH titer peaked near the end of the photophase-beginning of the scotophase. The hemolymph ecdysteroid titer did not exhibit a corresponding large amplitude daily cycle, although a low amplitude cycle (1-3-fold change) was seen in both morphs. The large magnitude rise in the JH titer in the flight-capable morph during the photophase was not due to decreased hemolymph volume or JH degradation. Daily cycles in the JH titer may be common, but may have gone unnoticed in other insect species due to restricted temporal sampling. Failure to identify these cycles can result in substantial errors in inferring biological roles for JH. Because JH regulates flight behaviors, morph-specific daily cycles in the JH titer may be especially common in dispersal-polymorphic insects, in which flight is restricted to one morph during a limited period of the day or night. However, because JH regulates numerous biological traits, analogous cycles may be common in insects exhibiting other types of complex (e.g. caste or phase) polymorphism, in which morphs differ in a biological characteristic that is restricted to a specific period of the photophase or scotophase.     

A Biochemical Evidence of the Inhibitory Effect of Diflubenzuron on the Metamorphosis of the Silkworm,Bombyx mori

Diflubenzuron (DFB) has been known to prevent metamorphosis of silkworm, Bombyx mori, from larval to pupal stage at low dose exposure. To explain this inhibitory action of DFB, a hypothesis was raised that DFB acts like juvenile hormone (JH) or DFB inhibits JH esterase to increase endogenous JH titer. A JH bioassay using isolated abdomen clearly indicates that DFB does not act as JH analog because DFB did not induce vitellogenesis in the isolated female abdomen, while endogenous JHs did significantly. General esterase activities in hemolymph were lower in DFB-treated fifth instar larvae than in the control larvae, but there was no difference between fat body esterase activities in both groups. Two hemolymph esterases (‘E1’ and ‘E2’) of the fifth instar larvae were separated and visualized by α-and β-naphthyl acetate. From in vitro incubation experiment, the cathodal esterase (‘E1’) was sensitive to DFB at its nanomolar range. Considering the fact that early fifth instar larvae have high level of JH esterase in the hemolymph, these results suggest that DFB inhibit larval to pupal metamorphosis by blocking JH degradation, which increases endogenous JH titer especially at the critical period when the larvae determine metamorphic development at the following molt.     

The biology of the black larval mutant of the tobacco hornworm, Manduca sexta

A mutant of the tobacco hornworm, Manduca sexta, was found to form black melanized cuticle in the last larval instar. This black phenotype is due to a single sex-linked gene whose expression can be changed by one or more modifier genes. The expression of the mutant phenotype is prevented by juvenile hormone (JH) application at the time of head cap apolysis during the moulting cycle to the last larval instar. The bl mutant is equally as sensitive to JH at this time as is a neck-ligated wild type larva, ruling out an absence of hormone receptors or a difference in JH metabolism. The bl corpora allata were found to be less active at this time than were those of the wild type larva, suggesting that the defect resides in the control of the corpora allata. Since selection for complete expression of the bl phenotype is easy, this mutant provides the basis for an ultrasensitive JH bioassay to be described in a forthcoming paper.     

Factors influencing juvenile hormone esterase activity in the wax moth, Galleria mellonella

The effects of juvenile hormone, antiallatotropins, selected surgical procedures and starvation on the juvenile hormone esterase levels in Galleria larvae and pupae were investigated. JH reduced JH esterase activity in larvae but induced the enzyme in 1-day-old pupae. In vitro studies confirmed that the peak of synthesis and/or release of JH esterase from the fat body of last instar larvae occurred 4 days after ecdysis. These studies also showed that fat body from JH-treated larvae released much less enzyme than controls. Antiallatotropins, precocene 2 and ZR 2646 also reduced JH esterase levels in larvae, but ZR 2646 induced JH esterase in pupae. In starved larvae, JH esterase did not increase during the first five days. A minimum of 36 hr of feeding was necessary for the larval esterase activity to increase on schedule on day 4 of the last larval stadium. When day-l larvae were ligated behind the head or the prothorax, they had lower JH esterase levels and yet showed a slight increase in the enzyme when the larvae reached the age of 4 days. The significance of these results is discussed in relation to the possible control of esterase activity during metamorphosis.     

Do the brains of wax moth larvae secrete an allatotropic hormone?

The hypothesis that the brains of young, last instar larvae of Galleria mellonella (L.) initiate supernumerary larval apolyses by secreting an ‘allatotropic factor’ was reexamined. It was confirmed that following bilateral allatectomy the larvae lose their ability to produce supernumerary instars (superlarvae) in response to implanted brains. The JH analog Altosid caused the allatectomized larvae to undergo extra apolyses irrespective of whether or not brains had been implanted. Although the percentage of superlarvae obtained following Altosid treatment was not increased by the implanted brains, the onset of extra apolyses was accelerated. This suggests that the brain can promote larval-larval apolyses without acting first on the corpora allata (CA). Presumably, it does so by producing prothoracotropic hormone.The propensity to generate new larval structures was tested by injecting ecdysterone into larvae 48 and 65 hr after they had been allatectomized. Within 48 hr after both CA had been removed the precocious apolysis resulted in individuals with antennae that were partly larval and partly pupal, and by 65 hr the ability to reproduce larval parts had diminished further. Those that were hemi-allatectomized did not demonstrate this impairment. The results were consistent with the interpretation that allatectomy abolishes the capacity to produce superlarvae because the JH titer declines to a level insufficient to permit expression of the larval genetic program during the next moulting cycle. This is offered as an alternative to the hypothesis that allatectomy prevents implanted brains from producing superlarvae because the target organs of the ‘allatotropic factor’ have been removed.An attempt was made to confirm the observation that brains from young, last instar larvae are more effective initiators of supernumerary apolyses than those from donors in the process of pupating. There was no evidence for a different endocrine function by the brain during the two stages.     

Juvenile hormone regulation of male accessory gland activity in the red flour beetle, Tribolium castaneum

Male accessory gland proteins (Acps) act as key modulators of reproductive success in insects by influencing the female reproductive physiology and behavior. We used custom microarrays and identified 112 genes that were highly expressed in male accessory glands (MAG) in the red flour beetle, Tribolium castaneum. Out of these 112 identified genes, 59 of them contained sequences coding for signal peptide and cleavage site and the remaining 53 contained transmembrane domains. The expression of 14 of these genes in the MAG but not in other tissues of male or female was confirmed by quantitative real-time PCR. In virgin males, juvenile hormone (JH) levels increased from second day post adult emergence (PAE), remained high on third day PAE and declined on fourth day PAE. The ecdysteroid titers were high soon after adult emergence but declined to minimal levels from 1 to 5 days PAE. Feeding of juvenile hormone analog, hydroprene, but not the ecdysteroid analog, RH-2485, showed an increase in size of MAGs, as well as an increase in total RNA and protein content of MAG. Hydroprene treatment also increased the expression of Acp genes in the MAG. RNAi-mediated knock-down in the expression of JHAMT gene decreased the size of MAGs and expression of Acps. JH deficiency influenced male reproductive fitness as evidenced by a less vigor in mating behavior, poor sperm transfer, low egg and the progeny production by females mated with the JH deficient males. These data suggest a critical role for JH in the regulation of male reproduction especially through MAG secretions.     

Time-dosage studies of juvenile hormone action on the development of Plodia interpunctella

The degree of inhibition of larval-pupal ecdysis of Indian meal moths, Plodia interpunctella, by juvenile hormone (JH) treatment depended upon the dosage of hormone and time of treatment. During the last larval instar, the timing aspect operated independently of dosage and had two essential components for effectiveness, (a) early initiation of exposure and (b) maintenance of exposure. The effects of JH treatments could be reversed by removing the insects from the JH diet. In vitro tests with wing disks indicated that JH reversibly inhibited disk development only during the early part of the last larval instar, a time when disks are insensitive to β-ecdysone. After disks acquire full sensitivity to β-ecdysone, they lose their ability to respond to JH.     

The effect of the persistence of juvenile hormone mimics on their activity on Rhodnius prolixus

The apparent juvenile hormone (JH) activity of methyl 12-homo-juvenate on fed fifth instar Rhodnius prolixus is nearly twelve times greater if the compound is applied topically over a period of 7 days (serial application) rather than as a single dose 1 day after feeding. Of five other JH mimics tested, four were more active by serial application, although none showed so great an increase in activity as methyl 12-homojuvenate; only farnesyl methyl ether was more active by single application. It is considered that the generally greater activity shown in the serial application tests is because less JH mimic is wasted by degradation and/or excretion. Therefore the serial application test provides a more accurate estimate of inna e JH activity than the single application test.     

Reproductive plasticity in Polistes paper wasp workers and the evolutionary origins of sociality

Regulatory pathways in solitary species provide the raw materials for the evolution of sociality. Therefore, comparing the mechanisms that mediate reproductive plasticity in social species and their solitary ancestors can provide insight into the evolutionary origin of sociality. In many solitary insects, the effect of juvenile hormone (JH) on fertility is mediated through the fat body; individuals in good physical condition show a stronger fertility response to JH than individuals in poor physical condition. Here, we test whether a similar, condition-dependent JH response mediates fertility in workers of the primitively eusocial Polistes dominulus wasps. We test how body weight, JH, and adult nutrition influence worker ovarian development. Both JH-treatment and adult nutrition dramatically increased ovarian development. Body weight also influenced ovarian development, as large workers developed more eggs than smaller workers. Body weight and fat are strongly linked in P. dominulus workers, so these results suggest that the fat-dependent JH responsiveness common in solitary insects is conserved in social wasps. The simple, ancestral relationship between reproductive investment and physical condition may facilitate cooperation by allowing workers to adaptively allocate energy into reproduction based on their probability of successfully becoming a queen.     

Effect of allatectomy on ecdysteroid-dependent development of Rhodnius prolixus larvae

the regulation of haemolymph titres of ecdysteroids during larval development of the bloodsucking bug, Rhodnius prolixus was studied. Corpus allatum ablation in 4th-instar larvae 1 day after feeding was reflected in an increase of the intermoult period and in a high level of ecdysial arrest. These effects could be corrected by juvenile hormone and ecdysone therapies. Comparison of the ecdysteroid titres in haemolymph determined in control and allatectomized larvae, at different intervals after feeding, showed that allatectomy drastically depressed the ecdysteroid levels. Juvenile hormone treatment reestablished ecdysteroid titres in the haemolymph of allatectomized insects. Isolated prothoracic glands from allatectomized larvae had a very low production of ecdysteroid-RIA-activity when compared with prothoracic glands from control or allatectomized larvae which received in vivo juvenile hormone treatment. The complexity of the corpus allatum-prothoracic glands interaction in Rhodnius post-embryonic development is discussed.     

Soldier presence suppresses presoldier differentiation through a rapid decrease of JH in the termite Reticulitermes speratus

The regulation of caste differentiation is essential to insect eusociality. Termite soldiers are sterile and cannot eat by themselves because they have specialized mouth morphology. Almost all termite species have a soldier caste, and the soldier ratio per colony is maintained at a low level, probably by elaborate regulatory mechanisms. Although the soldier presence is considered to negatively affect soldier differentiation in all examined species, the detailed mechanism remains unclear. Presoldier differentiation can be induced artificially by juvenile hormone (JH) application to workers, showing that JH is a key factor underlying the regulation of soldier differentiation. In this study, to elucidate physiological changes in workers because of the soldier presence during the molt into presoldiers, JH III applications and JH titer quantifications were carried out in the rhinotermitid termite Reticulitermes speratus. Firstly, the effects of soldier presence before the molt into presoldiers induced by JH III application to workers were investigated. The rates of presoldier molt induced by the treatments with soldiers were significantly lower than those without soldiers. Secondly, worker JH titers in the presence or absence of soldiers were quantified by LC-MS on day 0, 5, 10, and 15 after JH application. Results indicated that the worker JH titers (endogenous + applied JH III) in the presence of soldiers were significantly lower than those without soldiers on day 5 after the JH treatment. On days 10 and 15, such soldier effects were not observed. Finally, the effective duration of soldier presence after the JH application was elucidated. A 4 day period of co-existence with soldiers suppressed presoldier differentiation, suggesting that the soldier presence rapidly decreased the JH titer in other colony members (i.e., workers), resulting in the inhibition of presoldier production.     

Postemergence growth of the ovarian follicles of Aedes aegypti

Growth of the ultimate follicle to the resting stage in Aedes aegypti is linear and reaches maximum development about 60 hr after emergence. Decapitations and ligations at various times after emergence indicate that growth of the follicles is under the control of factors from the head and thorax. Release of head factor occurs within one day after emergence and is relatively sudden. The thoracic factor is released gradually over a 2 to 3 day period. Near normal growth of follicles in isolated abdomens after topical application of juvenile hormone (JH) indicates that the thoracic factor is JH from the corpora allata and demonstrates the feasibility of using this system as a JH assay. When ecdysone was injected simultaneously with JH the follicles failed to grow.