Bursicon in the mealworm, Tenebrio molitor L. and its role in the control of postecdysial tanning

Using the adult Calliphora bioassay, we found that the tanning hormone, bursicon, is present in the blood of pupal and adult Tenebrio only at the time of ecdysis, when it is released massively from the thoracic and abdominal central nervous system. The hormone's half life in the blood is short (about 1–2 h). Contrary to the findings of other workers, we could find no evidence for the presence of the hormone in the haemolymph during pharate adult development, before ecdysis begins. When newly ecdysed pupae were ligated about the neck, adult development of the thorax and abdomen proceeded normally, but postecdysial tanning of the adult cuticle was almost completely prevented. This failure to tan was not due to lack of bursicon as the hormone was released normally in the ligated animals at the time of ecdysis. This suggests that a pre-ecdysial signal may be required for the development of epidermal competence to respond to bursicon.     

Catechol conjugation with hemolymph proteins and their incorporation into the cuticle of the American cockroach,Periplaneta americana

Newly ecdysed American cockroaches, Periplaneta americana (sixth to last instar) were injected with radioactive dopamine (DA) and hemolymph was collected at 10–60 min post-ecdysis. Size-exclusion chromatography established the presence of at least three proteins that serve as catecholamine carriers. Reinjection of the smaller radiolabeled phenol-bound proteins into newly ecdysed animals results in in vivo aggregation, with the radiolabel bound to large MW proteins (30->200 kDa). In addition, the reinjection of radiolabeled protein of any size resulted in the incorporation of the label into the newly sclerotized cuticle. Hemolymph proteins were synthesized in vivo using [¹⁴C]leucine and subsequently double labeled in vivo with [³H]dopamine. After sclerotization (7 h post-ecdysis) the cuticle was extirpated, hydrolyzed and counted. An identical ratio of ¹⁴C to ³H was found in cuticle extracts as in the double-labeled hemolymph proteins, suggesting that the phenol-bound protein was incorporated in the cuticle unchanged. It appears that the catechol bound to the proteins exists as a β-glucoside.     

Bursicon and the metabolism of tyrosine in the moulting cycle of Pieris larvae

In fourth instar larvae of Pieris brassicae the haemolymph tyrosine level begins to rise about 1 day before apolysis to reach a level about treble that in the middle of the instar. Between apolysis and ecdysis the haemolymph tyrosine level appears to decline, until just before ecdysis another steep rise occurs. About 30 min after ecdysis a steep decline starts, levelling off gradually until the level in the middle of the instar is restored.Bursicon assays show that this hormone operates in the haemolymph both during apolysis and after ecdysis; but during the actual ecdysis no bursicon activity can be demonstrated in the haemolymph.Indications have been found that the bursicon activity can restore itself spontaneously in the haemolymph of newly ecdysed larvae. This would suggest that during ecdysis a bursicon inhibitor of restricted life is operating.     

Possible involvement of cockroach haemocytes in the storage and synthesis of cuticle proteins

The injection of UL¹⁴C-leucine into newly ecdysed immature cockroaches resulted in the labelling of both haemocyte and serum proteins. Serum proteins were purified by gel filtration, concentrated and reinjected into other freshly ecdysed animals. After incubations of one hour, radioactivity was detected in serum, haemocyte, and cuticle proteins. Similar experiments using labelled soluble blood cell proteins also produced radioactivity in the serum, cells and cuticle. The possible rôle of haemocytes in cuticle protein synthesis is denoted and its significance in regard to cuticular tanning is discussed.     

Role of juvenile hormone in regulating tyrosine glucoside synthesis for pupal tanning in Manduca sexta (L.)

Tyrosine glucoside (α-d-glucopyranosyl-O-l-tyrosine) serves as a reservoir of tyrosine and glucose for pupal and adult cuticle formation, tanning, and pigmentation in several Lepidopteran insects. In the tobacco hornworm, Manduca sexta (L.), detectable quantities appear in the haemolymph 1–2 days after ecdysis of the fifth instar and very high concentrations accumulate between the fourth and eighth days of the stadium. If juvenile hormone II or a mimic (methoprene) is injected into fifth-instar larvae at 24-h intervals after ecdysis, tyrosine glucoside synthesis is almost completely suppressed. Temporary starvation of newly ecdysed larvae that results in the maintenance of a high endogenous juvenile hormone titre, also suppresses and delays the onset of tyrosine glucoside synthesis. The decrease and eventual disappearance of juvenile hormone after ecdysis of the last-larval instar appears to be a necessary prerequisite for the synthesis or activation of tyrosine glucoside synthetase along with the initiation of other metamorphic events.     

Identification of a cuticle protein with unique repeated motifs in the silkworm,Bombyx mori

The insect cuticle is non-cellular matrix secreted from a monolayer of epidermal cells. After abrasion of the larval cuticle of the silkworm, Bombyx mori, a protein with molecular mass of 135 kDa is newly detected in the cuticle. Mass spectrometric analysis of the tryptic fragments from this protein revealed that the 135-kDa protein is encoded by the Cb10 gene. In the predicted amino acid sequence of Cb10, three repeated motifs with [YxGGFGGppG(L/V)L] sequence are found in the C-terminal region. In addition to the repeated motifs, Cb10 has seventeen CxxxxC motifs randomly distributed throughout the polypeptide chain and serine rich region at the N-terminal region. The Cb10 gene is strongly expressed in epidermal cells after pupal ecdysis, and its expression in the larval epidermal cells is induced not only by cuticular abrasion, but also by bacterial infection. These expression patterns suggest some specific roles of this protein in pupal cuticle formation and defense reactions.     

The reversible depletion and reconstitution of a copper ion in Coprinus cinereus laccase followed by spectroscopic techniques

The specific activities of crude and purified Coprinus cinereus laccase preparations could be enhanced by a factor of 10-12 by activation with copper ions. The copper to protein contents of purified non-activated laccase were 2.3 ± 0.1 compared to 3.3 ± 0.1 in purified activated laccase indicating that only a fraction of the laccase can be activated. Purified laccase not activated with copper ions shows in isoelectric focusing four bands in order of decreasing pI in a ratio 1/5/3/1 where only bands I and II had laccase activity. Purified activated laccase showed only three bands (I, II and III) in the ratio 5/4/1 all with some laccase activity. The pH profile of the activity for activated and non-activated laccase showed identical behavior indicating that the active forms were the same. The change in UV-Vis around 330 nm following the depletion and reconstitution of the enzyme combined with activity measurements supports the reversibility of the selective removal and insertion of copper ions at the type 2 site. The circular dichroism spectrum of activated purified laccase has characteristic changes around 350 nm relative to non-activated laccase indicative of changes at the type 2/type 3 sites. The difference between the electron paramagnetic resonance spectra of non-activated and activated C. cinereus laccase indicates that a fraction of the non-activated purified laccase contained a copper(II) signal with a coupling constant between a type 1 and a type 2 copper(II). This electron paramagnetic resonance signal could be explained by an induced asymmetry in the type 3 site due to a missing type 2 copper ion.     

Functional Analysis of Insect Molting Fluid Proteins on the Protection and Regulation of Ecdysis

Molting fluid accumulates between the old and new cuticles during periodical ecdysis in Ecdysozoa. Natural defects in insect ecdysis are frequently associated with melanization (an immunity response) occurring primarily in molting fluids, suggesting that molting fluid may impact immunity as well as affect ecdysis. To address this hypothesis, proteomic analysis of molting fluids from Bombyx mori during three different types of ecdysis was performed. Many proteins were newly identified, including immunity-related proteins, in each molting fluid. Molting fluids inhibited the growth of bacteria in vitro. The entomopathogenic fungi Beauveria bassiana, which can escape immune responses in feeding larvae, is quickly recognized by larvae during ecdysis, followed by melanization in molting fluid and old cuticle. Fungal conidia germination was delayed, and no hyphae were detected in the hemocoels of pharate instar insects. Molting fluids protect the delicate pharate instar insects with extremely thin cuticles against microorganisms. To explore the function of molting fluids in ecdysis regulation, based on protein similarity, 32 genes were selected for analysis in ecdysis regulation through RNAi in Tribolium castaneum, a model commonly used to study integument development because RNAi is difficult to achieve in B. mori. We identified 24 molting proteins that affected ecdysis after knockdown, with different physiological functions, including old cuticle protein recycling, molting fluid pressure balance, detoxification, and signal detection and transfer of molting fluids. We report that insects secrete molting fluid for protection and regulation of ecdysis, which indicates a way to develop new pesticides through interrupting insect ecdysis in the future.     

Phenoloxidases from larval cuticle of the sheep blowfly,Lucilia cuprina: Characterization,developmental changes,and inhibition by antiphenoloxidase antibodies

A tyrosinase, enzyme A (EC 1.10.3.1, o-diphenol: O₂ oxidoreductase), and a laccase, enzyme B (EC 1.10.3.2, p-diphenol: O₂ oxidoreductase), have been partially purified and characterized from larval cuticle of the sheep blowfly, Lucilia cuprina. Enzyme A is active toward a range of o-diphenols but not p-diphenols, is strongly inhibited by thiourea and phenylthiourea, has a pH optimum between 6.5 and 7.0, and yields a single, 60,000 molecular weight subunit following SDS gel electrophoresis. Enzyme B is active toward both o-diphenols and p-diphenols, is only slightly inhibited by phenylthiourea, has a pH optimum near 4.5, is highly thermostable, and has an apparent molecular weight of 90,000. Enzyme A appears to be activated from an inactive proenzyme in the cuticle and to be present throughout the wandering phase of the final larval instar, declining at pupariation. Enzyme B is present in active form, increases greatly in the cuticle just at the time of pupariation, and then decreases as sclerotization occurs. Antibodies against enzyme A have been raised in sheep and rabbits, and against enzyme B in rabbits, but diets containing antiphenoloxidase antibodies did not affect development or mortality of fly larvae.     

Characterization of endogenous and recombinant forms of laccase-2, a multicopper oxidase from the tobacco hornworm, Manduca sexta

Laccases belong to the group of multicopper oxidases that exhibit wide substrate specificity for polyphenols and aromatic amines. They are found in plants, fungi, bacteria, and insects. In insects the only known role for laccase is in cuticle sclerotization. However, extracting laccase from the insect's cuticle requires proteolysis, resulting in an enzyme that is missing its amino-terminus. To circumvent this problem, we expressed and purified full-length and amino-terminally truncated recombinant forms of laccase-2 from the tobacco hornworm, Manduca sexta. We also purified the endogenous enzyme from the pharate pupal cuticle and used peptide mass fingerprinting analysis to confirm that it is laccase-2. All three enzymes had pH optima between 5 and 5.5 when using N-acetyldopamine (NADA) or N-β-alanyldopamine-alanyldopamine (NBAD) as substrates. The laccases exhibited typical Michaelis–Menten kinetics when NADA was used as a substrate, with K_m values of 0.46 mM, 0.43 mM, and 0.63 mM, respectively, for the full-length recombinant, truncated recombinant, and cuticular laccases; the apparent k_cat values were 100 min⁻¹, 80 min⁻¹, and 290 min⁻¹. The similarity in activity of the two recombinant laccases suggests that laccase-2 is expressed in an active form rather than as a zymogen, as had been previously proposed. This conclusion is consistent with the detection of activity in untanned pupal wing cuticle using the laccase substrate 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS). Immunoblot analysis of proteins extracted from both tanned and untanned cuticle detected only a single protein of 84 kDa, consistent with the full-length enzyme. With NBAD as substrate, the full-length recombinant and cuticular laccases showed kinetics indicative of substrate inhibition, with K_m values of 1.9 mM and 0.47 mM, respectively, and apparent k_cat values of 200 min⁻¹ and 180 min⁻¹. These results enhance our understanding of cuticle sclerotization, and may aid in the design of insecticides targeting insect laccases.     

Purification of a thermostable laccase from Leucaena leucocephala using a copper alginate entrapment approach and the application of the laccase in dye decolorization

Laccase from a tree legume, Leucaena leucocephala, was purified to homogeneity using a quick two-step procedure: alginate bead entrapment and celite adsorption chromatography. Laccase was purified 110.6-fold with an overall recovery of 51.0% and a specific activity of 58.5 units/mg. The purified laccase was found to be a heterodimer (∼220 kDa), containing two subunits of 100 and 120 kDa. The affinity of laccase was found to be highest for catechol and lowest for hydroquinone, however, highest K_cat and K_cat/K_m were obtained for hydroquinone. Purified laccase exhibited pH and temperature optima of 7.0 and 80 °C, respectively. Mn²⁺, Cd²⁺, Fe²⁺, Cu²⁺ and Na⁺ activated laccase while Ca²⁺ treatment increased laccase activity up to 3 mM, beyond which it inhibited laccase. Co²⁺, Hg²⁺, DTT, SDS and EDTA showed an inhibition of laccase activity. The Leucaena laccase was found to be fairly tolerant to organic solvents; upon exposure for 1 h individually to 50% (v/v) each of ethanol, DMF, DMSO and benzene, more than 50% of the activity was retained, while in the presence of 50% (v/v) each of methanol, isopropanol and chloroform, a 40% residual activity was observed. The purified laccase efficiently decolorized synthetic dyes such as indigocarmine and congo red in the absence of any redox mediator.     

Bursicon release and activity in haemolymph during metamorphosis of the cockroach,Leucophaea maderae

Bursicon activity first appears in the haemolymph of the cockroach, Leucophaea maderae, early in ecdysis as the old cuticle splits and separates over the thorax. Hormonal activity reaches high levels in the haemolymph before ecdysis is complete and remains so for about 1·5 hr, with a gradual decline and disappearance by 3 hr. The sensory mechanism controlling bursicon release is located in the thorax and appears to be stimulated as the ecdysial split widens for emergence of the thorax. If the abdomen is isolated before this time no tanning of abdominal cuticle occurs, while the isolated thorax proceeds to tan. Therefore the thoracic ganglia seem to be a site of release for bursicon. Release of the hormone from abdominal and head ganglia may also occur after neural stimulation from the thoracic system. Bursicon activity was found in all ganglia of the central nervous system and the corpora cardiaca-allata complex. Removal of the old cuticle prior to the start of ecdysial behaviour does not result in tanning of the new cuticle. However, if the old cuticle is removed after the insect begins to swallow air in preparation for ecdysis, then the new cuticle tans. Mechanical prevention of ecdysis and later removal of the old cuticle also does not result in tanning of the new cuticle. Therefore, shedding of the old cuticle only activates the release of bursicon in conjunction with other normal ecdysial events.     

Extractable proteins from abdominal cuticle of sexually mature locusts,Locusta migratoria

The urea-extractable proteins from the abdominal cuticle of mature locusts Locusta migratoria, have been characterized by two-dimensional electrophoresis and by amino acid analysis of purified components. The existence of sex-related differences in protein composition was confirmed in mature cuticle, whereas such differences are absent in pharate cuticle. The proteins from mature cuticle are mainly acidic, while the pharate proteins are mainly basic. The deposition of the proteins characteristic for mature cuticle starts within a few days after ecdysis; the different proteins do not appear simultaneously in the extracts. It is suggested that the pharate proteins represent exocuticle, that the proteins extracted from mature cuticle are derived from endocuticle, and that the differences between the two groups of proteins will give the two layers different physical properties.     

Chitinase activity during Drosophila development

Before both larval moults in Drosophila melanogaster, the chitin in the cuticle is digested to a significant degree by the moulting fluid. A spurt of chitinase activity appears just before each ecdysis, drops sharply after the first ecdysis, and begins to rise again just about the time that chitin degradation becomes evident. The level of enzyme activity/mg of soluble protein reached just before the second ecdysis is about twice that reached before the first, and this declines gradually after the ecdysis until puparium formation. Chitinase activity is measured with a viscometric assay on a chitosan substrate.The enzyme activity is stable, with no loosely bound cofactor. Data also exist supporting the presence of more than one enzyme fraction in Drosophila with chitinase activity.     

Appearance of chitinolytic enzymes in integument of Bombyx mori during the larval-pupal transformation. Evidence for zymogenic forms

The appearance of chitinolytic enzymes, chitinase and β-N-acetylglucosaminidase, involved in ecdysis of the silkworm, Bombyx mori, was investigated using integuments prepared from fifth instar larvae during and after spinning behavior just before the larval-pupal transformation. β-N-Acetylglucosaminidase activity appeared a day after the beginning of spinning (SP1) and gradually increased for 2 more days (SP3), while chitinase activity appeared later at the SP3 stage (1 day before the ecdysis). It was shown by immunoblotting that the changes in activity were due to increases in the amounts of enzymes present. A probable zymogenic form of chitinase, whose molecular weight was about 215 kDa, was detected during spinning period by immunoblotting using anti-65-kDa chitinase antibody. The zymogen was observed 2 days before the appearance of enzyme activity. High molecular proteins (120–190 kDa) related to β-N-acetylglucosaminidase were also observed throughout the spinning period by immunoblotting, but this appearance pattern was different from that of chitinase. The results support, at least in the case of chitinase the hypothesis, that insect chitinolytic enzymes are synthesized as inactive precursors which are activated by limited proteolysis.     

Cuticle sclerotization by the American cockroach: Differential incorporation of leucine and tyrosine during post-ecdysis

The incorporation of U-¹⁴C-leucine into the cuticle occurs within the first 2 hr after ecdysis whereas U-¹⁴C-tyrosine is incorporated at a steady rate for approximately 8 hr. These data suggest that most of the cuticle protein is synthesized and laid down within a short time after ecdysis. On the other hand, tyrosine and/or metabolites (such as N-acetyl-dopamine) are translocated into the cuticle for several hours. This indicates that the sclerotization process may take place over an extended period.     

Ecdysteroid regulation of the onset of cuticular melanization in allatectomized and Black mutant Manduca sexta larvae

The absence of juvenile hormone at the time of head cap slippage during the last-larval moult of the tabacco hornworm, Manduca sexta, causes deposition of premelanin granules into the outer regions of the newly forming endocuticle beginning 13 h later. These granules were found to contain an inactive phenoloxidase which becomes activated about 9 h later, 4 h before body melanization begins. The onset of melanization was not accelerated by melanization and reddish colouration hormone from Bombyx heads, extracts of pharate-adult corpora cardiaca or pharate-larval ventral nerve cords (sources of eclosion hormone), or extracts of pharate-larval suboesophageal ganglia or corpora cardiaca-corpora allata complexes. Instead the fall of the ecdysteroid titre to below 250 ng/ml 20-hydroxyecdysone equivalents appeared to be the cue that allowed melanization about 4.5 h later. Up to, but not after, this time both melanization and ecdysis could be delayed by exogenous 20-hydroxyecdysone in a dose-dependent fashion above 0.1 μg per larva. In vitro studies published elsewhere indicate that 20-hydroxyecdysone prevents the activation of the premelanin granules. Thus the granules can be deposited at the proper time in the newly forming endocuticle but their melanization is regulated by the declining ecdysteroid titre and it thus synchronized with other events occurring just before ecdysis.     

A serine protease in the midgut of the silkworm,Bombyx mori: Protein sequencing,identification of cDNA,demonstration of its synthesis as zymogen form and activation during midgut remodeling

We identified a serine protease with a molecular mass of 37 kDa in the midgut of the silkworm, Bombyx mori. The activity of this protease (37-kDa protease: p37k) appears after pupation, when the metamorphic remodeling of the midgut is under progress. The sequence analysis of the purified protease and its cDNA revealed that p37k is a trypsin-type serine protease, which is highly similar to serine proteases of other insects, including CG4386 of Drosophila melanogaster. In our molecular phylogenetic analysis, these proteases are grouped together with CG4386-like serine proteases of other insects to form an isolated cluster. The p37k protein and its putative orthologs present in this cluster have two unique sequence motifs, CxxCxC and FIDWLxxLLG, in the N-terminal side of the catalytic region. The gene for p37k is expressed in the midgut on day 2 of the silk-spinning larva, and the p37k polypeptide becomes detectable with a specific antibody at this stage of the midgut. On the other hand, p37k activity is not detectable until pupation, indicating that p37k is present in the larval midgut as an inactive precursor, which then is activated after pupation. A recombinant p37k produced using a baculovirus system is also inactive in its intact form. However, the recombinant p37k can be converted to an active protease when incubated in the homogenate of the midgut, suggesting that some unidentified midgut factor(s) are involved in the activation of p37k.     

Some aspects on L-dopa decarboxylase and p-tyrosine decarboxylase in the central nervous and peripheral tissues of the American cockroach Periplaneta americana

1. Aromatic amino acid decarboxylase activities toward L-DOPA (L-3,4-dihydroxyphenylalanine), 5-HTP (5-hydroxytryptophan) and p-tyrosine in different tissues of the sclerotized and newly ecdysed cockroach were analyzed. 2. The ratios of enzyme activity with regard to L-DOPA and p-tyrosine varied considerably in the tissues and between the two different growth stages. 3. A DOPA decarboxylase and a p-tyrosine decarboxylase were separated by gel filtration and ion exchange chromatography. 4. The optimal pH requirement for both enzymes was 7.5 with the exception of the one decarboxylating 5-HTP. 5. The molecular weights of the cockroach brain DOPA decarboxylase and tyrosine decarboxylase were estimated to be 120,000 and 100,000, respectively. 6. Unlike the mammalian aromatic amino acid decarboxylase, the cockroach DOPA decarboxylase cannot be activated by a small amount of benzene. 7. An increase of over 50-fold of DOPA decarboxylase activity and a 50% reduction of tyrosine decarboxylase activity in the epidermal tissue of the newly ecdysed animals was observed. 8. In the fully sclerotized cockroach, a reversible endogenous inhibitor(s) of DOPA decarboxylase in the integument was observed, suggesting that the DOPA decarboxylase is suppressed in the epidermal tissues when ecdysis does not occur.     

Independently regulated juvenile hormone activity and vitellogenesis in mosquitoes

Temporally distinct, head-mediated processes regulate vitellogenic development as well as juvenile hormone (JH)-mediated development of ovarian follicles of Aedes aegypti. In blood-fed adult mosquitoes, vitellogenic development is stimulated during the first day after blood is imbibed and JH secretion is stimulated 2 days later. JH secretion in recently ecdysed adult mosquitoes is stimulated during or shortly before ecdysis. These observations suggest that vitellogenesis follows blood-ingestion, whereas JH activity may secondarily be promoted by vitellogenesis. It may be that vitellogenesis and JH activity are mediated by different brain hormones