Synchrony of juvenile hormone-sensitive periods for internal and external development in last-instar larvae of Oncopeltus fasciatus

Breakdown of the moulting glands in Oncopeltus can be completely inhibited by topical application of a juvenile hormone analogue prior to day 2 of the fifth instar, and partially inhibited by application prior to day 4. The analogue-sensitive period for the inhibition of external metamorphosis is very similar to that for the inhibition of cell death in the moulting glands. A decline in response to the analogue between days 2 and 4 is correlated with rising ecdysteroid levels in the haemolymph. That this rise in ecdysteroids may be responsible for termination of the juvenile hormone-sensitive period is suggested by premature loss of sensitivity to the analogue by the moulting glands following premature exposure to 20-hydroxyecdysone.     

Switchover in the sensitivity of the prothoracic glands to juvenile hormone in the cotton leafworm, Spodoptera littoralis

Switchover in the sensitivity of the prothoracic glands to juvenile hormone analogue during the last-larval instar of Spodoptera littoralis occurs in the middle of the third scotophase i.e. at the end of phagoperiod when the body weight is maximal and the ecdysteroid is increasing in the haemolymph. Application of the analogue to larvae neck-ligated before the switchover completely inhibits or delays metamorphosis due to an inhibitory effect on the prothoracic gland cells and is not mediated by the nervous system. This inhibition by the analogue is dose-dependent, and when complete inhibition of metamorphosis occurs, the prothoracic glands cells degenerate. Treatment of neck-ligated larvae with the analogue after the switchover stimulates metamorphosis by accelerating the appearance of an ecdysteroids peak in the haemolymph. The stimulatory effect of the analogue to the prothoracic glands in neck-ligated larvae is not direct one, and some unknown factors seem to play a role therein.

The probale role of prothoracicotropic hormone as a synchronizing factor in the switchover in the sensitivity of the prothoracic glands to juvenile hormone is discussed.     

Effects of anti-juvenile hormone “ETB” on the development and metamorphosis of the silkworm, Bombyx mori

As in the tobacco hornworm Manduca sexta, the synthetic juvenile hormone analogue ETB (ethyl 4-[2-(tert-buthylcarbonyloxy)butoxy]benzoate) showed both juvenile hormone-like and anti-juvenile hormone activities in the silkworm, Bombyx mori. When ETB was topically applied to allatectomized 4th-instar larvae, the compound counteracted the effects of allatectomy, such as induction of precocious metamorphosis and black pigmentation in the larval markings. Therefore, ETB had juvenile hormone activity, but it could neither induce brown pigmentation in the markings nor induce an extra-larval moult as can juvenile hormone.When intact 3rd-instar larvae were treated with the compound, the majority underwent precocious metamorphosis in the 4th-instar, and later formed fertile miniature adults. Some moulted into larval-pupal intermediates or 5th-instar larvae with darkened larval markings and/or with abnormality of specific regions of the silk-gland. The optimal dose for such anti-juvenile effects was about 1–10 μg/larva, and higher doses showed less activity. Such anti-juvenile hormone effects of ETB were counteracted by administration of the juvenile hormone analogue, methoprene, before a certain critical time in the 4th-instar. The corpora allata of treated larvae appeared cytologically normal, and the corpora allata from ETB-induced miniature moths secreted juvenile hormone when implanted into allatectomized 4th-instar larvae.     

Influence of Pyriproxyfen on the Expression of Haemolymph Protein Genes in the Colorado Potato Beetle,Leptinotarsa decemlineata

Pyriproxyfen, a potent juvenile hormone analogue for the Colorado potato beetle, Leptinotarsa decemlineata, was applied topically to last-instar larvae and short-day adults at different times after moulting. The effect of the hormone analogue on concentration and composition of protein in the haemolymph was studied at different intervals after pyriproxyfen application. The hormone analogue had little effect on total protein concentration of the haemolymph, but affected protein composition. Diapause protein 1 was prevented from being synthesized if pyriproxyfen was applied before the gene was activated and disappeared from the haemolymph if applied after the gene had been expressed. It therefore inactivated the gene for diapause protein in both larvae and adults. Pyriproxyfen also induced appearance of vitellogenin at both stages, indicating induction of expression of the vitellogenin gene. It also affected the stability of mRNA for diapause protein. The analogue caused mRNA for diapause protein 1 to disappear untimely compared to controls in last-instar larvae and short-day adults. The response of adults to the JHA was much more pronounced than that of larvae, although the analogue had a strong biological effect on last-instar larvae because it prevented metamorphosis at low doses. Copyright 1997 Elsevier Science Ltd. All rights reserved     

Soldier determination in Pheidole bicarinata: Effect of methoprene on caste and size within castes

Topical application of methoprene to final-instar larvae of the ant Pheidole bicarinata can induce soldier development. Soldier induction takes place if methoprene levels are above a soldier-determining threshold during a critical period of juvenile hormone-sensitivity that occurs during about days 4–6 of the final instar. Furthermore, the amount of exogenous methoprene applied affects the timing of metamorphosis and the adult size in both the minor worker and soldier castes. When larvae that receive methoprene treatment become minor workers these are always larger than acetone-treated controls. In larvae that become soldiers, growth and timing of metamorphosis vary with the dose of methoprene, but in a more complex way. A high dose of methoprene produces a metamorphic delay and large soldiers. However, the lowest effective dose for soldier induction produces early metamorphosis and small adults. On the basis of these results, we have expanded our model of a mechanism by which juvenile hormone could control determination of worker castes in Pheidole bicarinata.     

Ecdysteroid level and the change in sensitivity to a juvenile hormone analogue in Ephestia cautella larvae (Lepidoptera,Phycitidae)

A double-antibody ecdysone-specific radioimmunoassay was used to clarify whether the effects on metamorphosis of the juvenile hormone analogue methoprene are correlated with changes in ecdysteroids level. It appears that a small ecdysteroids peak, 5 days before pupation, is responsible for the transition from inhibition to defective metamorphosis. Study of the changes in ecdysteroid titer in last-instar larvae treated with the JHA 2 days prior to the appearance of the above small ecdysteroids' peak showed an immediate reduction in ecdysteroid level, followed by cyclic, successively reduced titer for about 20 days. After this period the larvae ceased to feed and entered to a diapauselike stage which ended in the death of the larvae. A similar effect on ecdysteroid titer and developmental arrest was exhibited by JHA-treated first-instar larvae. The mechanism of the interactions between JHA and ecdysteroid level deserves further investigation.     

Soldier determination in Pheidole bicarinata: Inhibition by adult soldiers

In the ant Pheidole bicarinata, adult soldiers suppress the induction of soldier developments in larvae that have been treated with methoprene, as well as in acetone-treated controls. Induction of soldier development is inhibited in methoprene-treated larvae when the adult soldiers are present as nurses, when they are present in the colony but minor workers serve as nurses, and when they are held in a minor worker-permeable cage to prevent them from contacting larvae. Suppression of soldier determination can be overridden by high doses of methoprene applied during the juvenile hormone-sensitive period for soldier determination. The degree of suppression increases with increasing contact between larvae and adult soldiers. The most likely mechanism of inhibition is a contact soldier pheromone. On the basis of our results, we expand our model of soldier determination to accommodate the fact that the threshold titre of juvenile hormone necessary to induce soldier development changes in the presence of soldiers. A threshold that is sensitive to the presence of adult soldiers provides a mechanism whereby the worker caste ratio in colonies can be regulated.     

Juvenile hormone titres and metabolism during starvation-induced supernumerary larval moulting of the tobacco hornworm, Manduca sexta L.

When tobacco hornworm (manduca sexta) larvae are starved for 5 days immediately after ecdysis to the 5th instar, then fed normal diet, they undergo a supernumerary moult instead of metamorphosis. During starvation the titre of juvenile hormone in the haemolymph increased to a maximum of 3 ng juvenile hormone I equivalents/ml (determined by the black Manduca larval bioassay) on the fourth day of starvation, then began a decline which continued through the subsequent feeding period. The changes in juvenile hormone titre were not attributable to changes in haemolymph volume during starvation (only a 5% decrease) and subsequent feeding. During starvation the esterase activity of the haemolymph declined 4-fold with a 2-fold larger decrease in the DFP-insensitive, presumably juvenile hormone specific, esterase activity. Both the total and the juvenile hormone-specific esterase activity then increased as a function of larval weight during the subsequent feeding period. As growth was slow in the prolongedly starved larvae, sufficient juvenile hormone was present at the time of prothoracicotropic hormone (PTTH) and ecdysteroid release at the beginning of the fourth day of feeding to prevent metamorphosis.     

Larval-pupal transformation of the prothoracic glands of Mamestra brassicae

The sensitivity of the prothoracic glands to juvenile hormone and prothoracicotropic hormone (PTTH) of penultimate (5th)-instar larvae of Mamestra brassicae was compared with that of the same-instar larvae destined for pupal ecdysis by allatectomy. The activity of the prothoracic glands was assessed using either moulting of isolated abdomens or ecdysone radioimmunoassay. Juvenile hormone application immediately after neck-ligation (which removes brain-corpora cardiaca-corpora allata complex) prevented prothoracic gland function in larvae at all stages. When larvae were allatectomized 12 hr after ecdysis, followed by neck-ligation at different times and given juvenile hormone immediately, the hormone inhibited the prothoracic glands of young larvae, but activated the prothoracic glands from day-5 or older larvae. Juvenile hormone I, juvenile hormone II and methoprene activated the prothoracic glands, but juvenile hormone III was relatively ineffective. Brain implantation instead of juvenile hormone application led to activation of the prothoracic glands at all stages.Allatectomy thus caused changes leading to metamorphosis including a transformation of the prothoracic glands from ‘larval’ to ‘pupal’ type. After this change these prothoracic glands were able to respond not only to PTTH but also to juvenile hormone just as in last-instar larvae.     

Variations in larval growth and metabolism of an estuarine shrimp Palaemonetes pugio during toxicosis by an insect growth regulator

1. Exposure of the estuarine shrimp, Palaemonetes pugio, to a juvenile hormone analogue (⩾8 μg methoprene 1⁻¹) throughout larval development inhibited successful completion of metamorphosis.2. Methoprene exposure retarded growth in early larval stages and postlarvae, but enhanced growth in premetamorphic larvae.3. Respiration rates of early larvae were elevated by methoprene exposure, but not so older larvae or post larvae.4. Lower net growth efficiency (K₂ values) in methoprene-exposed early larvae suggests that increased metabolic demands reduced assimilated energy available for growth.5. Modifications in O:N ratios of premetamorphic larvae and postlarvae suggest that methoprene altered substrate utilization patterns during metamorphosis.     

The effect of a juvenile hormone analogue on ecdysteroid titre during development and HnRNA formation in the moth,Ephestia cautella

The juvenile hormone analogue, methoprene was found to interfere with normal development of Ephestia in a manner dependent on age. Young embryos, prior to the stage of blastokinesis, and animals, shortly before and after pupation, were found to be the most sensitive to the compound. The JHA inhibited metamorphosis and produced giant larvae when it was given to immature larvae, however, when it was given to larvae 2–3 days prior to pupation or to young pupae it did not affect metamorphosis but prevented adult emergence. Comparison of the ecdysteroid titre determined in control and treated animals in the various developmental stages showed that JHA depressed the ecdysteroid titre totally only when it was given to young larvae and partially when it was applied shortly before pupation. It seems that the action of methoprene on ecdysone regulated systems and/or ecdysone producing systems in Ephestia appears to be mainly during the larval stage prior to the appearance of the small ecdysteroid peak and the formation of HnRNA in the transition period from larvae to pupae.     

Juvenile hormone esterase activity in the pupating and diapausing larvae of Sesamia nonagrioides

The development of the Mediterranean corn borer, Sesamia nonagrioides, under long-day (LD) photoperiod is associated with juvenile hormone (JH) decline and pupation in the 5th or 6th larval instar. The larvae grown under short-day (SD) conditions maintain a moderate JH titer and enter diapause during which they undergo several extra larval molts. Both types of larvae exhibit similar levels of juvenile hormone esterase (JHE) activity that increases in each instar during the period of low ecdysteroid titer and drops when the titer rises to a molt-inducing peak. A suppression of JHE activity within 24h after application of an ecdysteroid agonist suggests that the drop of activity is a rapid and possibly direct response to ecdysteroids or their agonist. Esterase inhibitor 3-octylthio-1,1,1-trifluoro-2-propanone (OTFP) suppressed more than 98% of the JHE activity without affecting pupation timing and adult development. The data indicate that JHE is not crucial for the switch between larval development, diapause, and metamorphosis in S. nonagrioides.     

Disruptive developmental effects of benzyl-1,3-benzodioxole derivatives on unparasitized and parasitized Manduca sexta larvae

Treatment of tobacco hornworm larvae with the benzyl-1,3-benzodioxole derivative J-2710 immediately after ecdysis to the fourth instar disrupted development either during the moult to the fifth instar or shortly thereafter. Larvae given topical applications of 100 μg J-2710 in 1 μl acetone suffered 100% mortality, often after secreting moulting fluid in large pockets between the epidermis and the cuticle later in the fourth instar. Larvae that successfully ecdysed had abnormalities of the mouthparts and cervix that interfered with normal feeding, inhibiting growth in the fifth instar. Larvae of the gregarious endoparasitic wasp Cotesia congregata (=Apanteles congregatus) frequently failed to emerge from host Manduca sexta larvae treated with high doses of J-2710, particularly when the host failed to feed normally. Less potent disruptive effects on Manduca and Cotesia were seen after treatment of larvae with the derivatives J-3370 and J-2581.No anti-juvenile hormone action of J-2710 was observed. J-2710-treated M. sexta larvae showed no precocious metamorphosis and the developmental effects of J-2710 were not prevented by co-application of the juvenile hormone analogue methoprene in doses ranging from 1 to 100 μg/larva. Moreover, J-2710 had no effect on the action of methoprene in the black larval assay for juvenile hormone-like activity, unlike results reported to occur using the Galleria wax wound assay.     

The nature of the changes in the pattern of RNA synthesis by the juvenile hormone analogue altosid

The effect of various concentrations of Altosid and actinomycin D under defined conditions on housefly metamorphosis was investigated with three strains of houseflies. The morphogenetic response varied with the strains and the length of time which the larvae were exposed to the juvenile hormone analogue. De novo RNA synthesis was studied with (2-¹⁴C)-glycine. Methods were developed for the isolation of nuclear, soluble, and ribosomal RNA. The procedure presented provides a DEAE-cellulose chromatographic method for the removal of high molecular weight RNA from DEAE at a neutral pH. Labelling of the RNAs was increased in the presence of the juvenile hormone analogue indicating an increase in the rate of RNA synthesis. The higher incorporation of the labelled precursor into nuclear RNA demonstrates that cytoplasmic RNA is derived from the nuclei.     

Epidermal polyamine levels related to cell cycle events during the metamorphosis of Tenebrio molitor L. (insecta,coleoptera): Effect of juvenoid application

• 1.1. Three polyamines were separated by reverse-phase HPLC and detected by fluorescence in Tenebrio epidermis: putrescine, spermidine and spermine.
• 2.2. The levels of these compounds varied during metamorphosis: one peak was observed during the G₂-arrest preceding the pupal-adult mitotic crisis and a second occurred when cells were again G₂-arrested after the mitotic period.
• 3.3. A juvenile hormone analogue, which inhibits the G₂-M transition preparing cells to the adult mitoses, was unable to prevent the first polyamine increase suggesting that juvenile hormone does not act on further development via inhibition of polyamine synthesis.

     

Influence of delayed metamorphosis on postsettlement survival and growth in the sipunculan Apionsoma misakianum

Abstract. Certain stresses experienced by marine larvae from many groups can dramatically reduce aspects of juvenile performance. This study reports the effects of delayed metamorphosis and nutritional stress on survival and growth of the deposit-feeding sipunculan Apionsoma (= Golfingia ) misakianum . Approximately 600 larvae collected from the Florida Current plankton were distributed among 3 treatment groups. Ninety larvae (controls) were offered sediment and adult-conditioned seawater 4 d after collection, to induce metamorphosis; larvae of this species could not be induced to metamorphose by increasing the K⁺ concentration of seawater. The remaining 500 larvae were kept swimming for either 2 or 4 weeks, with or without phyto-plankton (clone T-ISO). At the end of the periods of prolonged larval swimming, subsampled larvae (360) were induced to metamorphose as in the controls. Surviving individuals were retrieved 6 weeks after the addition of excess sediment in all treatments, and weighed to document growth. Neither delayed metamorphosis nor starvation influenced juvenile survival. However, starving larvae for 2 weeks significantly reduced mean juvenile growth rates relative to the mean growth rate of control individuals (p<0.0001), while prolonging larval life by 4 weeks significantly reduced mean juvenile growth rates (p<0.05) whether or not larvae were fed. Reduced juvenile growth rates may have been caused by nutritional stress experienced by larvae in both the starved and fed treatments. The rapid response of freshly collected larvae to sediment indicates that competent larvae of this species routinely delay metamorphosis in the field. The extent to which they also experience food limitation is not yet clear. If competent larvae are food limited while delaying metamorphosis in the field, our results suggest that juveniles will grow more slowly and may thus exhibit reduced fitness.     

Inhibition of the larval ecdysis and emergence behavior of the parasitoid Cotesia congregata by methoprene

Parasitism of the tobacco hornworm, Manducasexta, by the braconid wasp Cotesiacongregata, induces developmental arrest of the host in the larval stage. During the final instar of the host, its juvenile hormone (JH) titer is elevated, preventing host metamorphosis. This study investigated the effects of hormonal manipulation of the host on the parasitoid’s emergence behavior. The second larval ecdysis of the wasps coincides with their emergence from the host, and application of the juvenile hormone analogue methoprene to day 4 fifth instar hosts either delayed or totally suppressed the subsequent emergence of the wasps. Effects of methoprene were dose-dependent and no parasitoids emerged following treatment of host larvae with doses >50 μg. Parasitoids which failed to emerge eventually succumbed as unecydsed pharate third instar larvae in the hemocoel of the host. Effects of host methoprene treatment on parasitoid metamorphosis were also assessed, and metamorphic disruption occurred at much lower dosages compared with doses necessary to suppress parasitoid emergence behavior. The inhibitory effect of methoprene on parasitoid emergence behavior appears to be mediated by effects of this hormone on the synthesis or release of ecdysis-triggering hormone (ETH) in the parasitoid, the proximate endocrine cue which triggers ecdysis behavior in free-living insects. ETH accumulated in the epitracheal Inka cells of parasitoids developing in methoprene-treated hosts, suggestive of a lack of hormone release. Thus, the hormonal modulation of parasitoid emergence behavior appears to be complex, involving a suite of hormones including JH, ecdysteroid, and peptide hormones.     

Larval esterases of the southwestern corn borer, Diatraea grandiosella: Temporal changes and specificity

Disc electrophoresis was used to examine and characterize the esterases present in the fat body, haemolymph, and midgut of last stage larvae of the southwestern corn borer, Diatraea grandiosella. Significant temporal changes were observed in the pattern of the 4 major esterases of the fat body and 3 major esterases of the haemolymph. These changing profiles presumably relate, in part, to a requirement for the degradation of juvenile hormone (JH) in preparation for metamorphosis.The binding capacity of esterases present in the larval midgut towards JH I and three JH mimics (alkyl-3,7,11-trimethyl-2,4-dodecadienoates) was also examined. The midgut of last stage nondiapausing larvae was shown to contain a carboxylesterase which bound all three JH mimics. Another esterase which bound JH I, but not the mimics, was also present. An esterase with a similar electrophoretic mobility was detected in the haemolymph and integument. Since the JH I binding esterase did not bind the JH mimics, the mimics do not appear to synergize JH by inhibiting its ester hydrolysis.     

Competence of Macrotermes michaelseni (Isoptera: Macrotermitinae) larvae to differentiate into soldiers under the influence of juvenile hormone analogue (ZR-515, methoprene)

It has been shown that only third instar larvae of Macrotermes michaelseni have the competence to differentiate into presoldiers under the influence of juvenile hormone analogue (JHA). The timing of events leading to presoldier formation was independent of JHA dose above the threshold. Further studies with homogeneous groups of third instar larvae of different ages showed that only larvae of a certain age (0–6 days) could respond to topically applied JHA to produce presoldiers and intercastes (intermediate forms). Older larvae did not respond, hence, 0–6 days interval is the competence period for presoldier differentiation in this species. It seems also that the corpora allata of those individuals which differentiate into presoldiers become activated during the competence period, possibly by the parents or other means.