Disruption of pupariation and eclosion behavior in the flesh fly, Sarcophaga bullata Parker (Diptera: Sarcophagidae), by venom from the ectoparasitic wasp Nasonia vitripennis (Walker) (Hymenoptera: Pteromalidae)

The action of venom from the ectoparasitic wasp, Nasonia vitripennis, was monitored by examining alterations in patterned muscular movements characteristic of pupariation and eclosion behavior in the flesh fly, Sarcophaga bullata. Venom injected into larvae prior to pupariation caused a dose-dependent delay in pupariation. Eventually, such larvae did pupariate, but puparia were abnormally formed. Barographic records revealed that all elements of pupariation behavior were present in venom-injected larvae, but pupariation behavior was not well synchronized with tanning, thus implying that the venom caused disruption in the temporal organization of central motor programs. When larvae were ligated and injected with venom posterior to the ligature, no response was evident in the posterior region, suggesting that the venom does not directly stimulate muscles or neuromuscular junctions. Injection of exogenous ecdysteroid into venom-injected larvae restored some elements of pupariation behavior, consistent with ecdysone's role in stimulating the release of anterior retraction factor and puparium tanning factor, two factors that are released from the CNS to regulate pupariation. When the venom was injected into newly emerged imagoes, the duration of extrication behavior was shortened, whereas all phases of post-eclosion behavior were lengthened. These observations imply that the venom affects CNS centers that regulate the muscular systems engaged in extrication and post-eclosion behavior.     

Comparison of the effects of pyrokinins and related peptides identified from arthropods on pupariation behaviour in flesh fly (Sarcophaga bullata) larvae (Diptera: Sarcophagidae)

Peptides from the pyrokinin/PBAN family and some structurally related compounds identified in various arthropods were tested for acceleration of puparial contraction in flesh fly larvae. Modifications of behavioural patterns of pupariation were further studied for the active compounds using a behavioural analysis based on the recording of changes in tension of the cuticle. Nine peptides belonging to the pyrokinin/PBAN family (Lem-PK, Pea-PK-5, Lom-PK II, Hez-PBAN, Bom-DH-I), identified in five different insect species, two pyrokinin peptides derived from the genome of Drosophila melanogaster (capa-3, and hugin), and two pyrokinins identified from the white shrimp Penaeus vannamei were very active in the pupariation assay, with threshold doses within the range of 0.1-5.0 pmol larva(-1). High activity was also detected for a related peptide ETH1 from Drosophila. All of these peptides share a C-terminal PRLamide, which is essential and sufficient for the activity. Interestingly, two other structurally related peptides from Drosophila--ETH2 and capa-1--which feature conservative changes (Ile and Val, respectively) at the C-terminal Leu position, were inactive within a physiological range of concentrations. It is clear that the receptor mediating the acceleration of puparial contraction behaviour is sensitive to the introduction of greater steric bulk at the C-terminal Leu position. The peptides that accelerated pupariation showed very similar patterns of muscular and cuticular activity.     

A comparison of the pupariation acceleration activity of pyrokinin-like peptides native to the flesh fly: Which peptide represents the primary pupariation factor?

Five native pyrokinin-like peptides (Neb-PK-1, Neb-PK-2, Neb-PVK-1, [L9]Neb-PVK-2, [I9]Neb-PVK-2) identified in the neuropeptidome of the flesh fly Neobellieria bullata were compared for their quantitative and/or qualitative effects on puparium formation (pupariation). In a standard pupariation bioassay, both Neb-PVK-1 and [I9]Neb-PVK-2 proved inactive, whereas [L9]Neb-PVK-2 demonstrated only weak activity. In contrast, both Neb-PK-1 and Neb-PK-2 demonstrated potent threshold doses, with Neb-PK-2 about 10-fold more active than Neb-PK-1. Analysis of neuromuscular activity during pupariation using a tensiometric technique demonstrates that the two native Neb-PKs accelerate the onset of immobilization and cuticular shrinkage more than motor programs associated with retraction of the anterior segments and longitudinal body contraction. It was further determined that the sensitivity of various components of the pupariation process to these peptides decreases in the following order: immobilization>cuticular shrinkage>motor program for anterior retraction>motor program for longitudinal contraction congruent to tanning of cuticle of the newly formed puparium. A paradoxical situation was observed whereby the motor programs of pupariation are temporally dissociated from actual morphogenesis of the puparium. The tensiometric data suggest that the most likely candidate for a primary pupariation factor is Neb-PK-2, rather than Neb-PK-1.     

Wandering behaviour and pupariation in tsetse larvae

Abstract .Following parturition, the third instar larva of Glossina morsitans morsitans West begins a wandering period in which it crawls to the site of pupariation. The duration of wandering can be drastically shortened by pinching or by denying the larva physical contact with the substrate. Contact with water increases the wandering period. Duration of subsequent activities appears to be rigidly fixed. At the end of the wandering period, the larva quickly progresses through a stereotypic sequence of behaviours that include immobilization and excretion of a liquid from the anus, retraction of the anterior segments, cuticular shrinkage, and tanning. Muscular activity and mechanical changes in the cuticle are reflected in changes of haemocoelic pressure. Muscular contractions produce pressure pulses that gradually increase in frequency and intensity, reaching a peak during retraction of the anterior segments. Changes in the mechanical properties of the cuticle cause a more gradual elevation of baseline pressure as the cuticle shrinks and loses its plasticity. As tanning begins, muscular activity ceases and haemocoelic pressure gradually decreases. In spite of its unusual early development within the confines of the female's uterus, the free-living larva shows the full behavioural repertoire observed in other cyclor-rhaphous Diptera at pupariation.     

Fraenkel's pupariation factor identified at last

Thirty-five years ago, Zdarek and Fraenkel demonstrated that nervous tissue extracts influenced development by accelerating pupariation in the grey flesh fly, Neobellieria bullata. We have now identified this pupariation factor as SVQFKPRLamide, designated Neb-pyrokinin-2 (Neb-PK-2). To achieve this, the central nervous system of N. bullata wandering stage larvae, that is, preceding pupariation, were dissected and extracted before HPLC separation. Chromatographic fractions were screened with a bioassay for pupariation accelerating activity. Only one fraction showed huge pupariation activity. Mass spectrometry revealed the presence of a pyrokinin, whose primary sequence could not be unequivocally determined by tandem mass spectrometry. However, this Neb-pyrokinin appeared to be very prominent in the ring gland from which it was subsequently purified and identified. Synthetic Neb-PK-2 accelerates pupariation with a threshold dose of only 0.2 pmol and therefore, Neb-pyrokinin is considered to be the genuine pupariation factor. The immunohistochemical distribution pattern of Neb-PK-2 is very similar to that of Drosophila pyrokinin-2, from which it differs by only one amino acid residue. Hence, the recently identified G-protein coupled receptors (CG8784, CG8795) for Drosophila pyrokinin-2 might play an important role in puparium formation.     

The metabolism of 3H-moulting hormone in Calliphora erythrocephala during larval development

The activity in whole insects for converting ³H-α-ecdysone to ³H-β-ecdysone after injection is low (half-maximal) in young last instar larvae, maximal in mature larvae, and minimal (fourth-maximal) at the white puparial stage. Because moulting hormone titre is low throughout the last larval instar and increases at the formation of the puparium it appears that hydroxylation at C-20 is not a key step in regulating β-ecdysone biosynthesis during larval development.The activity for catabolizing ³H-β-ecdysone is maximal in second instar larvae, about thirdmaximal throughout most of the third instar, and minimal at pupariation (thirtieth-maximal). Thus inactivation may play a rôle in regulating moulting hormone titre during larval development.     

Calcium transport from Malpighian tubules to puparial cuticle ofMusca autumnalis

Summary The transport of calcium from mineralized granules stored in the Malpighian tubules to the puparium of the face fly,Musca autumnalis De Geer, was studied. Calcium was transported directly from the tubules to the cuticle via the hemolymph. Little, if any, calcium entered the hindgut or other tissues during or prior to transport. A total of approximately 0.8 mg of calcium per larva was transported, beginning at the wandering stage; peak hemolymph concentrations occurred at anterior retraction. Hemolymph calcium levels subsequently decreased as puparial calcium increased. Puparial mineralization utilized most of the minerals stored during the larval stage, with lesser amounts of minerals being recovered in the adult or excreted. Deposition of mineral salts in the cuticle was accompanied by an increase in cuticular pH from 7.0 to 8.4. The house fly,Musca domestica L., which contains much lower concentrations of minerals in the puparial cuticle, exhibited no increase in cuticular pH during pupariation. Biomineralization of the face fly puparial cuticle appears to occur, in part, as a result of ionic equilibria involving calcium and magnesium phosphates and carbonates, which have relatively low solubility products at alkaline pH.Contribution No. 87-237-J from the Kansas Agricultural Experiment Station, Kansas State University, Manhattan, Kansas. Cooperative investigation between Agricultural Research Service, U.S. Department of Agriculture and the Kansas Agricultural Experiment Station. K.J.K. is a research chemist and adjunct professor at U.S. Grain Marketing Research Laboratory and Kansas State University, respectively. Mention of a proprietary product in this paper does not imply its approval by the USDA to the exclusion of other products that may also be suitable. Reprint requests to A.B. Broce     

The calcified puparium of the face fly, Musca autumnalis (Diptera: Muscidae)

The general composition of the calcified puparium of Musca autumnalis was determined. Ash-weight analyses show that 62% of the puparium is inorganic material. The major components of the puparium are calcium, magnesium, phosphate and carbonate. Calcium and magnesium phosphate are the predominant salts in the puparium, with a lesser contribution by their respective carbonates. Scanning electron microscopy revealed that the exocuticle was the site of calcification in the puparium. Inorganic analyses of the insoluble salt isolated from face fly larvae showed it to be compositionally identical with the puparial salt. Major organic components of the puparium are lipid, chitin and protein. The presence of carbonic anhydrase and alkaline phosphatase activity in post-feeding larvae was confirmed.     

X-ray investigation of gas bubble formation, and water loss in tsetse fly pupae

ABSTRACT. Using a microfocal X-ray apparatus, a gas bubble was detected within the puparium of Glossina morsitans. The bubble appeared between 6 and 15 h after pupariation and was associated with one of the longitudinal tracheal trunks of the third instar larva. The bubble grew and achieved maximum size approximately 96 h after pupariation. It then disappeared at the time of eversion of the pupal appendages. There was a close correlation between bubble size and the weight of water lost since the time of pupariation. At the time of eversion of the pupal appendages the gas bubble apparently passed out through the longitudinal tracheal trunk and posterior spiracle to occupy the space between larval (puparial) and pupal cuticle. It is suggested that the bubble plays a vital role in the separation of these cuticular layers and that to this end water loss from the puparium is essential.     

Effect of x-irradiation on the formation of the puparium in the fleshfly, Sarcophaga bullata

Post-feeding, pre-critical stage larvae (36 hr before pupariation) of Sarcophaga bullata were exposed to X-rays and the effects on pupariation observed. With doses ranging from 1250 to 10,000 R the prepuparial period was prolonged and the duration of this delay increased with higher doses. Doses above 2500 R inhibited the retraction of anterior segments, longitudinal contraction and cuticular shrinkage resulting in larval-like tanned puparia. With the anterior part of the body shielded during irradiation, normal puparia were formed, but after a delay proportional to the area irradiated. Injection of β-ecdysone counteracted this delay. With the doses used, irradiation had no effect on post-critical stage larvae. This suggested that the CNS has a special mechanism which controls the neuromuscular processes of pupariation, and when this mechanism is damaged by irradiation larval-like puparia are formed. The pupariation delay was attributed to a temporary block in the synthesis, or release, or both of α-ecdysone (in whole-body or anteriorly only irradiated larvae) and its final conversion to β-ecdysone (in posteriorly only irradiated larvae). The fact that post-critical stage larvae are insensitive to irradiation suggests that the neuromuscular and neurosecretory processes which are affected by irradiation are already completed at that stage.     

Haemolymph ecdysteroid titres at metamorphosis in the fruit fly Ceratitis capitata: multiple peaks not apparent in whole body extracts

Abstract. The titre profile of haemolymph ecdysteroids in the fruit fly Ceratitis capitata was constructed from determinations of haemolymph taken from single animals and compared with ecdysteroid levels in whole body extracts. Larvae were sampled throughout the period from the late third instar larva until eclosion and were synchronized using a conspicuous behavioural marker ('leaping') that occurs at the end of the wandering period. Extracts of the whole body exhibit two peaks of ecdysteroids, one associated with pupariation ('pupariation peak' of other authors) and the other with pharate adult development. However, the 'pupariation peak' corresponded with three temporally distinct peaks in the titre of haemolymph ecdysteroids. The first peak occurs at the time of head retraction (lh before formation of the white puparium) and may represent the initial response to release of prothoracicotropic hormone. The second peak occurs 2–3 h later at the onset of tanning and may be responsible for induction of dopa-decarboxylase. These peaks are brief ( c . 2h each), whereas the third is much longer (16 h) and occupies most of the 'pupariation peak'. The first two peaks have not been reported previously in any dipteran. Their existence illustrates that extremely brief pulses of ecdysteroids occur in vivo , apparently with profound developmental consequences. The fact that brief pulses in the haemolymph titre are not apparent in whole body extracts emphasizes that results obtained using the latter method must be interpreted with caution.     

Influence of environmental factors on the wandering phase and pupariation in stable fly, Stomoxys calcitrans, larvae

Abstract. Components of the wandering phase of mature stable fly ( Stomoxys calcitrans L. (Diptera: Muscidae)) larvae were examined. The mean length of the wandering phase was estimated to be 10.6 ± 3.5 h. In a factorial experiment in which wandering larvae were allowed to pupate in media with three levels each of moisture, temperature and light, the mean time to 50% pupariation was delayed and the rate of pupariation was lowest at high moisture levels, but this latter effect was seen only at the moderate light level. Pupae in media with higher moisture contents had significantly higher fresh weights. However, none of the three factors affected dry weight of pupae. A significant interaction was observed between the effects of moisture and temperature on survival; only at highest moisture content and at the highest temperature did a significant decrease in survival occur. In a separate experiment, density was found to have no effect on mean time to 50% pupariation or the rate of pupariation. Puparium formation appeared to be random under a LD 169 h photocycle, showing no apparent circadian rhythm.     

Comparative characteristics of the puffing pattern and the endocrine system in an oregon laboratory stock and in l(2)gl Drosophila melanogaster mutants differing in the time of their death

This study shows that homozygotes for different alleles of the lethal mutant, l(2)gl, differing in the time of death also vary in the state of their endocrine system and the puffing patterns of their salivary gland chromosomes. Homozygotes which die at the larval stage have underdeveloped prothoracic glands and normal corpora allata (CA); in those dying at the prepupal stage both the prothoracic glands and the CA are equally underdeveloped. — All the early third instar larval puffs (96–110 h., PS 1–2) develop in homozygotes; however, the reduction of some early larval puffs, normally occurring before pupariation or at puparium formation, is delayed. Some puffs are more developed than normal. — The differences in puffing patterns chiefly concerned puffs which normally appear 4–5 h before puparium formation and at puparium formation. In homozygotes lethal as larvae some of the puffs normally active at this time did not develop. However, along with some of the late larval puffs, there appeared many puffs characteristic of prepupae. — In homozygotes lethal as prepupae only the time and sequence of puff appearance was altered. Many late larval puffs were active in prepupae rather than in larvae, whereas some of the puffs, normally appearing in prepupae, were active in the larval stage.Accordingly, we propose to distinguish two groups of puff loci. 1) Hormone dependent puffs: These do not develop in larval lethals and are active only after puparium formation in pupariated lethals. 2) Autonomous puffs: Their appearance depends more on the time of development, than on hormonal background. It is suggested that the induction of hormone dependent puffs and of puparium formation is possible at low ecdysone levels, provided that the juvenile hormone level is also low.     

A possible role of ecdysteroids in pre-ecdysial tanning in larvae of Sarcophaga bullata (Diptera: Sarcophagidae)

The levels of ecdysteroids in Sarcophaga bullata were determined by radioimmunoassay (RIA) from the time of larviposition (0 hr) to after the 2nd ecdysis and from late larval to pupal development. Two distinct peaks of ecdysteroid activity were recorded mid-way through the first and second stadia (14 and 34 hr) and two smaller peaks occurred a few hours prior to each ecdysis. A large release of ecdysteroids occurred from 8 hr before and up to 18 hr after formation of the white prepupa. This peak initiated the formation of the prepupa, the tanning of the puparium, larval/pupal apolysis and secretion of the pupal cuticle.Assays for the cuticle tanning hormone, bursicon, in pre-ecdysial larvae were not positive and a possible role for ecdysone in pre-ecdysial tanning of larval cuticular structures is proposed.     

Diapause hormone in the corn earworm, Helicoverpa zea: optimum temperature for activity, structure-activity relationships, and efficacy in accelerating flesh fly pupariation

Diapause hormone (DH) effectively terminated pupal diapause in Helicoverpa zea. This effect was temperature-dependent, with an optimum of 21 degrees C. The dose-response curve indicated an ED50 of DH for diapause termination of approximately 100 pmol. The core sequence and essential amino acids were determined by bioassays using modified and truncated DH analogs. A C-terminal hepta-peptide, LWFGPRLa, was the core sequence required for diapause termination. Activity was lost when Alanine was substituted for any of the amino acids in the hepta-peptide, with the exception of Glycine. A fragment series of analogs suggested that the amide and Arginine were the most important components needed for terminating diapause. Leucine, Tryptophan, and Phenylalanine at the N-terminus of the hepta-peptide were also critical for activity. The C-terminal Leucine was less important: deletion resulted in decreased activity, although it could not be substituted by Alanine. The fact that a portion of the DH sequence is similar to the pyrokinin that accelerates fly pupariation prompted us to also evaluate the capability of DH to accelerate development in the flesh fly, Sarcophaga bullata. The threshold dose of DH essential to accelerate fly pupariation was 5 pmol for immobilization/retraction and longitudinal contraction and 10 pmol for tanning, approximately one or two orders of magnitude lower than the effective dose required for diapause termination in H. zea. Tensiometric measurements revealed that DH affected neuromuscular patterns of pupariation behavior and associated cuticular changes in a manner similar to that of the fly pyrokinins and their analogs.     

Developmental regulation of juvenile hormone biosynthesis by the ring gland ofDrosophila melanogaster

Summary The synthesis in vitro of the putative dipteran juvenile hormone (JHB₃) by ring glands isolated from third instarDrosophila melanogaster larvae was quantified by a radiochemical assay. The data indicate that JHB₃ synthesis is developmentally regulated during the period prior to wandering until after puparium formation. The highest level of basal production occurred during the postfeeding stage, and synthesis declined after pupariation. Similar relative profiles of synthesis were obtained upon the addition of the JHB₃ precursor, farnesoic acid, although the absolute levels of production were elevated considerably. Basal JHB₃ production by brain-ring gland complexes in vitro was also highest during the postfeeding stage, although the synthetic rates were much lower than displayed by isolated ring glands. Further analysis revealed that methyl farnesoate, a JHB₃ precursor, was synthesized by brain-ring gland complexes in significant quantity. A dual mechanism of brain-centered control of JHB₃ biosynthesis is proposed.To whom offprint requests should be sent     

Effects of juvenile hormone I and the anti-juvenile hormone fluoromevalono-lactone on development and juvenile hormone esterase activity in post-feeding last-stadium larvae of Trichoplusia ni (Hübner)

Treatment of post-feeding (early day 3; wandering phase) last-stadium larvae of the cabbage looper, Trichoplusia ni, with the anti-juvenile hormone, fluoromevalonolactone, prevented the normal ecdysis to the pupa. It caused the formation of larval-pupal intermediates, a dose-dependent delay in the time of tanning, and a decrease in juvenile hormone esterase activity at the time of the prepupal juvenile hormone esterase peak. Fluoromevalonolactone was inactive as juvenile hormone esterase inhibitor in vitro. Conversely, juvenile hormone I accelerated the time of tanning, induced the early appearance of juvenile hormone esterase activity, and prevented adult eclosion. Although most of the larvae that were treated with fluoromevalonolactone immediately after the prepupal burst of juvenile hormone (late on day 3; post-spinning phase) still became larval-pupal intermediates, the time of tanning and juvenile hormone esterase activity were close to normal. Topical treatment of day-3 larvae with radiolabelled juvenile hormone I resulted in the rapid appearance and decline of radiolabelled juvenile hormone I in the haemolymph which was associated with the increased production of juvenile hormone I acid and the induced appearance of juvenile hormone esterase activity. Thus, in post-feeding last-stadium larvae of T. ni, juvenile hormone seems to be necessary for the proper formation of the pupa. Juvenile hormone is also involved in determining the time of pupation, and it appears to induce its own degradation.     

Growth rate adjustment of two Drosophila parasitoids in response to the developmental stage of hosts

1. Generalist koinobiont parasitoids often exhibit high flexibility in their development; their larvae shorten or prolong the developmental period depending on the host quality at parasitisation. However, flexibility of the growth rate of parasitoid larvae has rarely been investigated so far. 2. This study investigated how the koinobiont parasitoid wasps Asobara japonica and Leptopilina ryukyuensis regulate their larval growth when they parasitise host Drosophila larvae with varying larval periods. 3. In both parasitoid species, the preimaginal period was longer when they parasitised 1‐day‐old larvae of Drosophila rufa than when they parasitised older larvae of D. rufa or when they parasitised larvae of Drosophila simulans, a species with a shorter larval period than D. rufa. After host pupariation, A. japonica accelerated its growth, thereby showing a biphasic growth curve. On the other hand, L. ryukyuensis did not accelerate its growth after host pupariation. 4. Growth retardation of parasitoid larvae in 1‐day‐old D. rufa larvae would contribute to avoiding excess growth before host pupariation, because the excess growth of parasitoid larvae would have negative effects on host growth. The growth rate acceleration of A. japonica after host pupariation suggests that they enhance resource utilisation in a host that has reached maximum body mass. It remains uncertain as to why L. ryukuensis does not show clear accelerated growth after host pupariation. Nonetheless, these results suggest that parasitoid larvae have the ability to detect the developmental stage of hosts in a species‐specific manner.     

Diapausing pupae of the flesh fly Sarcophaga crassipalpis (Diptera: Sarcophagidae) are more resistant to inoculative freezing than non-diapausing pupae

The resistance of diapausing (overwintering) and non‐diapausing (summer) Sarcophaga crassipalpis (Diptera: Sarcophagidae) pupae to inoculative freezing was examined. Although both types of pupae resisted inoculative freezing after 24‐h submergence in water, diapausing pupae were overall significantly more resistant than non‐diapausing pupae. Exposing the thin pupal cuticle by removing the ends of the puparial case eliminated the capacity of both pupal types to resist inoculative freezing, indicating that resistance to inoculative freezing resides with the puparium. Pupae submerged in surfactant solution were significantly less resistant to inoculative freezing than those submerged in water. Furthermore, the puparial water content of pupae submerged in surfactant solution was significantly greater than that of puparia from pupae submerged in water. Surfactant may have promoted inoculative freezing by facilitating the spread of water over the surface of and into the puparium, thereby creating bridges between external ice and pupal body fluids. Extracting puparial surface lipids with chloroform/methanol (2 : 1, v:v) decreased the resistance of non‐diapausing pupae to inoculative freezing but did not significantly affect that of diapausing pupae. This finding indicates that the puparium of diapausing pupae contains protection against inoculative freezing separate from its surface lipids. This barrier may be important in protecting the freezing‐intolerant overwintering pupae against inoculative freezing within their soil hibernaculum.     

Genetic and developmental analysis of puparium formation in Drosophila

Summary Five new mutants were isolated on the X-chromosome which prevent or substantially delay puparium formation and subsequent metamorphosis without affecting larval development. The mutant phenotype probably involves stage-specific gene functions unimportant for the larval development but vital for puparium formation and for the beginning of metamorphosis. Two mutants gave larval-puparial gynanders (LPG) and could not be induced to pupariate by the implanted wild type ring gland. The block in these is possibly in some ecdysone-inducible autonomous functions of the larval hypoderm. The other 3 mutants did not form LPG while the implanted wild type ring gland induced pupariation. These mutants presumably have a low, subthreshold amount of ecdysone which is not able to induce pupariation.