DOPA and tyrosine decarboxylase activity in tissues of Periplanet a americana in relation to cuticle formation and ecdysis

DOPA decarboxylase activity in haemolymph and integument was low in last instar and early pharate adult Periplaneta americana, but began to increase shortly before ecdysis. Decarboxylation rates of l-DOPA, about 10 times the larval level by the start of ecdysis, reached a peak about 6 hr afterward, coinciding with the main period of cuticular sclerotization. Activity decreased rapidly during the next 18 hr, then decreased gradually for several days. Haemolymph DOPA decarboxylase activity was about four times greater than the integument, based on tissue dry weights. The fat body and gut tissues had low DOPA decarboxylase activity in all ages tested, and this did not increase at ecdysis. Tyrosine decarboxylase activity was significant only in the haemolymph and at consistently low levels.DOPA decarboxylase, therefore, apparently plays a major rôle in production of catecholamine derivatives for cuticular sclerotization in P. americana, while tyrosine decarboxylation is minor. Both haemolymph and integument appear to be important sites of dopamine biosynthesis.     

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.     

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.     

Pupal cuticle proteins of Manduca sexta: characterization and profiles during sclerotization

Proteins in pupal abdominal cuticle of the tobacco hornworm, Manduca sexta, were characterized during the pre-ecdysial and post-ecdysial periods of sclerotization and endocuticle formation. Protein extractability decreased dramatically as the cuticle became sclerotized through 6 h post-ecdysis, but increased rapidly from 9 to 48 h as endocuticular layers were secreted. Nearly 100 proteins that were extracted from pre-ecdysial cuticle became largely insoluble during sclerotization. Three major proteins in this group destined to become exocuticle had apparent molecular masses (Mapp) of 20, 27 and 36 kDa, and were designated MS-PCP20, MS-PCP27, and MS-PCP36. Amino acid analysis revealed glycine to predominate in all three proteins, and alanine, aspartate, glutamate, proline and serine were also relatively abundant. Histidine residues, which provide sites for adduct and cross-link formation with quinone metabolites of N-beta-alanyldopamine during sclerotization of pupal cuticle, ranged from 2 to 3 mol %. N-Terminal amino acid analysis of MSPC-20 and MSPC-36 also revealed some sequence similarities indicating they may be related. An almost entirely new group of proteins appeared by 9 h as endocuticule secretion began, and these increased in abundance through 48 h post-ecdysis. Two of these were major proteins with Mapps of 33 and 34 kDa, and they also had close similarities in their N-terminal amino acid sequences. This study showed that the large number of proteins secreted into the presumptive exocuticle of the pupa before ecdysis are involved in sclerotization reactions and as a consequence become largely insoluble. The epidermis then switches to the secretion of an entirely new group of proteins that are involved in formation of the endocuticle.     

N-β-Alanyldopamine levels and synthesis in integument and other tissues of Manduca sexta (L.) during the larval-pupal transformation

N-β-Alanyldopamine (NBAD) and other diphenols in tissues of the fifth larval instar of the tobacco hornworm, Manduca sexta (L.), were analyzed by HPLC with electrochemical detection. NBAD accumulated in the integument during the intermolt feeding period, with maximal levels in the wandering stage (6 mmol/g). It then declined to a low level during apolysis and endocuticle digestion, while hemolymph NBAD increased during the same interval to a peak concentration (3 mM) shortly before pupal ecdysis. Trachea and foregut contained lesser amounts of NBAD (0.5 mmol/g), perhaps associated with cuticle, whereas fat body, muscle, midgut and hindgut had 0.1 mmol/g or less. Dopamine (DA), N-acetyldopamine and 3,4-dihydroxyphenylalanine (DOPA) were at least 10-fold less abundant than NBAD in the integument. NBAD synthase, which catalyzes the formation of NBAD from DA and β-alanine, was assayed in both integument and fat body. Highest activity was detected in the integument, where two peaks were observed, one at day 3 near the end of larval feeding and the other at day 9 as pupal cuticle tanning was initiated. Fat body enzyme was substantially less and was detected only in the pharate pupa. Maximal NBAD synthesis by integument cultured in vitro was dependent upon DA supplementation of at least 1.4 mM. 20-Hydroxyecdysone did not alter NBAD synthesis in vitro in either the integument or the fat body, even though injection of this hormone into isolated larval abdomens induced synthesis and/or transport of integumental NBAD back into the hemolymph. The rate-limiting steps in the NBAD biosynthetic pathway appear to be the production of DOPA and DA, because β-alanine occurs in the hemolymph at relatively high levels throughout larval-pupal development.     

Site of synthesis,tissue distribution,and lipophorin transport of hydrocarbons in Blattella germanica (L.) nymphs

The site of hydrocarbon (HC) synthesis and the amount of HC in various tissues were investigated in relation to developmental stage in the last larval stadium of the German cockroach, Blattella germanica. Abdominal integument linearly incorporated [1-(14)C]propionate into HC for at least 6h in vitro, whereas other body parts synthesized little or no HC. The third through sixth abdominal sternites and tergites were the principal sites of synthesis. High rates of HC synthesis resulted in a fivefold increase in internal HC during the last stadium. We examined the distribution of HC in the hemolymph, fat body, and the developing imaginal cuticle. Hemolymph HC titer was relatively constant at approximately 8&mgr;g/&mgr;l. However, as hemolymph volume increased from 5 to 11&mgr;l in the first 4days of the last stadium, HC content increased and then remained stable the remainder of the stadium. Lipophorin, immunoprecipitated with adult lipophorin polyclonal antibodies, was the only HC carrier protein in nymphal hemolymph and its HC profile was identical to that of hemolymph and similar to that of the epicuticle. The concentration and total amount of hemolymph lipophorin increased until 3days before adult eclosion and declined immediately after ecdysis. The HC content of non-biosynthetic integument (legs, pronotum) doubled during formation of the imaginal cuticle, as did the HC content of sternites, which synthesize HC. HC content of fat body, however, increased threefold during the same period, suggesting that the fat body serves as a storage site for HC during cuticle formation. We conclude that in the last stadium HC is synthesized by abdominal oenocytes, loaded onto hemolymph lipophorin, and transported to fat body and both nymphal and imaginal cuticle. Hydrocarbons associate with the imaginal integument several days before eclosion.     

Juvenile hormone: Its assay and effects on pupae of Manduca sexta

Non-diapausing pupae of Manduca sexta were used to develop a bioassay for juvenile hormone (JH). The period of maximal sensitivity to Cecropia C17-JH injected in olive oil was found to be 24 to 30 hr after pupal ecdysis at the time of the beginning of epidermal retraction. The dose-response curves for C16-, C17-, and C18-JH at 29±1 hr after pupal ecdysis were determined and those for the latter two compounds were found to be similar and to be linear between 10^?2 and 10 μg/g body weight. C16-JH was 300 times less active than C17- and C18-JH in this bioassay. The effectiveness of 0·5 μg/g C18-JH at 29±1 hr was determined by the carrier media in which it was injected. The highest scores were obtained when the carrier was light mineral oil or loive oil whereas the lowest scores were obtained using 10% BSA or Tween 80. These scores are consistent with the kinetics of equilibration of the injected JH with the haemolymph. Thus, the injected hormone is more effective when it slowly leaks into the blood, presumably because it is metabolized much more slowly.     

Feeding behaviour, digestive physiology and lipid content in macropterous females of Pyrrhocoris apterus (L.) (Heteroptera: Pyrrhocoridae)

Abstract. Macropterous females of Pyrrhocoris apterus (L.) reared under short-day conditions (LD 12:12 h) were analysed for temporal patterns of feeding and drinking behaviour, activities of digestive enzymes in the gut, and lipid and glycogen content in the haemolymph and fat body. Peaks of drinking activity were recorded at days 3, 7 and 10 during the first 14 days after imaginal ecdysis. Feeding activity peaked on the third day, ceasing completely after the fourth day of adult life. Esterase, protease, amylase and aminopeptidase activities exhibited the highest overall activity in the first days after imaginal emergence; then enzyme activities decreased. In the fat body, the content of lipids was highest on day 5, then a decrease of about 40% was observed at day 14; the amount of glycogen was highest on day 1 at 11 μg of glucose equivalents/mg of fat body, then decreased to 2 μg at day 14 after the imaginal moult. In the haemolymph, the lipid content rose until day 8 when it reached almost 0.3 μmol/μl; at day 14 the value was slightly lower. The association of fasting with reproductive arrest in macropterous females of P. apterus, accompanied by a decrease in digestive enzyme activities and a mobilization of lipid reserves from the fat body, was demonstrated.     

Time studies of ecdysone-action on in vitro apolysis of Chilo suppressalis integument

The relationship between induction of in vitro apolysis and the duration of hormone treatment, and the effects of metabolic inhibitors on the ecdysone-induced apolysis were investigated in the cultured integument taken from the rice stem borer larva, Chilo suppressalis. When fragments of integument were subjected to 0.3 μg/ml β-ecdysone for more than 5 hr and then transferred to hormone free medium, they were induced to apolyse one day after treatment. If the fragments of integument were treated with hormone for 1 to 4 hr at first and then treated with hormone for 2 to 5 hr again after a 5 day interval in hormone free medium, almost all the fragments were induced to apolyse one day after treatment. This result suggests that the action of β-ecdysone on the cultured integument is accumulative. If the fragments of integument were cultured in the medium containing actinomycin-D and then transferred to medium containing β-ecdysone, a strong inhibitory effect on the apolysis of the integument was observed. Similarly, an inhibitory effect appeared when fragments of integument were treated first with hormone and then with puromycin. These results show that the m-RNA synthesis necessary for apolysis was completed within 6 hr after hormone treatment. However, the protein synthesis required for apolysis was not. The relationship of the results obtained from these in vitro experiments to the mode of action of ecdysone is discussed.     

Hormonal requirements for the larval-pupal ecdysis induced in the cultured integument of Chilo suppressalis

The switchover from a larval to a pupal epidermal commitment was studied on integument tissue fragments from early last-instar larvae (1–2 days after ecdysis) of Chilo suppressalis cultured in Grace's medium containing 0.01–0.5 μg/ml 20-hydroxyecdysone for 24–72 hr. Fragments were subsequently cultured in medium containing 1 μg/ml 20-hydroxyecdysone for 24 hr and maintained in hormone-free media for 6 additional days. The degree of switchover induction was measured as the ratio of the number of tissue fragments showing pupal characteristics to the total number of fragments used. The degree of switchover increased with the duration of culture, as well as with the concentration of the hormone (up to 0.1 μg/ml), in the first hormonal treatment. Above this concentration, apolysis and new cuticle formation were induced without change in the epidermal commitment. Cultured integument fragments from larvae in the diapause stage, 40–50 days after hatching, and from those in the penultimate stage, showed the switchover under almost the same hormonal conditions as those used with tissue from the early last-instar larvae. After the first hormone treatment, culture in hormone-free medium was unnecessary for cuticle tanning. Juvenile hormone II added to the medium (3 ng/ml) in the first hormonal treatment completely inhibited the switchover induced by 20-hydroxyecdysone. The potential use of the C. suppressalis integument as a bioassay system for juvenoids is discussed.     

Effect of a juvenile hormone analogue on phosphatase activity in pupae of the stable fly, Stomoxys calcitrans.

The alkaline phosphatase activity of stable fly pharate pupae treated with 10 ng of an insect juvenile hormone analogue (JHA), Stauffer R-20458, or untreated pupae was rhythmic and peaked 48 and 96 hr after larval-pupal apolysis. Those treated with 10 μg were not rhythmic and peaked at 48 and 120 hr. Acid phosphatase activity showed a general increase throughout pupal-adult transformation and was three- to four-fold higher than alkaline phosphatase activity. At 24 and 48 hr after larval-pupal apolysis, acid phosphatase was lower in the treated animals, but at 72 and 120 hr, it was higher. Neither inhibition nor enhancement of acid and alkaline phosphatase activity or by three other JHAs could be demonstrated in vitro.     

Water balance during vitellogenesis by the American cockroach:distribution of water during the six day cycle.

Haemolymph volume, total body water, and total tissue water fluctuate during the vitellogenic cycle in the American cockroach. The observed patterns indicate that the tissues store water for oöthecal production rather than the haemolymph. The carcass water (which consists of the integument and adhering tissue) cycles in direct contrast to the water ingestion pattern, suggesting that these tissues supply ovariole water incorporation during days 3 and 5. Both fat body and gut release large volumes of water during day 6 to the haemolymph for use in the formation of the oötheca.     

Detection of haemocyte proteins in the integument of the developing Mediterranean fruit flyCeratitis capitata

Summary Studies of the synthesis of integumental proteins during the feeding and non-feeding stages ofCeratitis capitata demonstrated stage specificity. The synthetic profile changed dramatically, showing a maximum of protein synthesis just before the larval wandering stage, followed by an abrupt decline. The comparison between synthetic and accumulation profiles indicated that some polypeptides must be internalized into the integument from the haemolymph. The major haemolymph proteins or arylphorins have already been documented to be incorporated into the integument. In the present work, we demonstrated the interalization of some haemocyte proteins into the integument. For that purpose, polyclonal antibodies were raised against total haemocyte proteins. Immunoblot analysis of haemocyte salt extractable proteins revealed that the protein bands at 36, 54, 58, 84, 110 and 130 kDa were immunoreactive with the total haemocyte antibodies. Cell-free protein synthesis, organ culture experiments and immunoblot analysis indicated that the 36-, 54- and 58-kDa polypeptides were synthesized only in the haemocytes and were probably internalized into the integument from the serum. The 36-kDa polypeptide was also demonstrated to be internalized into the fat body of white puparia. The immunofluorescence experiments suggested that the internalization of haemocyte proteins first occurs into the epidermal cells and then into the cuticle. The presence of haemocyte proteins in the integument was also demonstrated by immunofluorescence experiments in twoC. capitata mutants. These mutations affect the darkening and stiffening of the cuticle. The demonstration of 36-, 54- and 58-kDa haemocyte polypeptides in the integument reveals a hitherto unknown function of this cell type. Moreover, the demonstration of tyrosine binding to the 54- and 58-kDa polypeptides points to their potential involvement in the sclerotization process in the cuticle.     

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.     

Cation concentrations in the haemolymph of the fly Chironomus thummi, during development

The concentrations of the haemolymph monovalent and divalent cations have been determined during the development of Chironomus thummi, a fly. The insect maintains a low and rather constant level of sodium and potassium ion throughout most of the fourth instar period until the time of the larval-pupal ecdysis (LL = 87.6 mM Na; 10.8 mM K; EPP = 77.4 mM Na; 11.2 mM K; LPP = 83 mM Na; 14.6 mM K). During the final period of development, as the pupa apolysis to a pharate adult there is a significant increase in sodium and potassium ion levels (EA = 149.4 mM Na; 49.6 mM K). This sharp change of the haemolymph environment is coincident with the occurrence of many of the dramatic metamorphic changes in the animal, e.g., the breakdown of the salivary gland, and the initiation of vitellogenesis, among others. Artificial media containing the same concentrations of ions as the haemolymph enabled the in vitro maintenance of salivary glands for periods of up to 48 to 72 hr. The importance of the present information in studies of chromosomal puffing and in other cellular activities such as those leading to cell breakdown has been discussed.     

RNA synthesis in imaginal disks of Galleria mellonella: Effects of alpha- and beta-ecdysone and fat body in vitro

The effects of alpha-ecdysone (α-E), beta-ecdysone (β-E), and larval fat body on morphogenesis and total RNA synthesis in wing imaginal disks of Galleria mellonella were studied. Both ecdysones induce morphogenesis of disks in vitro. Alpha-ecdysone and β-E (0·3–3·0 μg/ml) stimulate RNA synthesis 30 and 60 per cent above control levels, respectively. While less α-E (0·3 μg/ml) is required to increase RNA synthesis than to induce morphogenesis, the reverse is true for β-E. Morphogenesis (i.e. tracheole migration and evagination) can proceed in the presence of concentrations of β-E (0·03 μg/ml) that are subthreshold for the induction of RNA synthesis (0·3 μg/ml). We conclude, therefore, that the increase in total RNA (presumbly ribosomal) is unrelated to and not a prerequisite for tracheole migration or evagination. If morphogenically active preconditioned medium (i.e. medium in which α-E and fat body have been incubated for 48 hr and the fat body then removed) is added to disk cultures, RNA synthesis is not stimulated. Apparently, increases in total RNA caused by both ecdysones may not be necessary for early in vitro disk development. The independent nature of some ecdysone-induced events and implications of our conclusions are discussed.     

Ecdysteroid levels and developmental events during larval moulting in the silkworm, Bombyx mori

In the silkworm, Bombyx mori, apolysis of the spiracle is the first visible sign of the initiation of a larval moult. After spiracular apolysis, the characteristic sequence of new spiracle formation can be recognized easily through the cuticle around the old spiracle. This sequence, called the spiracle index, was used as the basis for a precise developmental chronology of the larval moulting period. At certain spiracle-index stages, histological changes in the larval ventral abdominal integument were also examined. By allatectomy and abdominal ligations, the critical periods for the secretion of juvenile hormone and ecdysone respectively were found to be at the initiation of spiracular apolysis and at the time when general apolysis was complete. The haemolymph-ecdysteroid level as measured by radioimmunoassay was about 30–50 ng/ml during the first 2 days of the 4th instar, 60–70 ng/ml at the time of initiation of spiracular apolysis, and 200 ng/ml at the time of completion of apolysis of the general body surface. The maximal level of the hormone was about 290 ng/ml at the mid-moulting period. The relationship between the ecdysteroid titre and morphological events occurring during the larval moult was discussed.     

Patterns of haemolymph vitellogenin and ovarian vitellin in the German cockroach, and the role of Juvenile Hormone

Abstract. The concentrations of fat body and haemolymph vitellogenin and ovarian vitellin during the first gonadotropic cycle of the cockroach Blattella germanica (L.) (Dictyoptera, Blattellidae) have been studied. For these purposes, a polyclonal antibody against B. germanica vitellogenin and vitellin has been obtained, and an ELISA to quantify these proteins has been developed. Ovarian vitellin levels follow a pattern which parallels those of basal oocyte growth and Juvenile Hormone production by the corpora allata. This suggests that Juvenile Hormone regulates vitellogenin uptake into oocytes. Fat body and haemolymph vitellogenin levels give cyclic and parallel patterns. However, the cycle of Juvenile Hormone appears delayed with respect to that of vitellogenin. We suggest that the production of Juvenile Hormone, although cyclic in profile, does not modulate alone the cycle of vitellogenin. At least a supplementary mechanism, apparently independent of Juvenile Hormone, may be involved in the decline of vitellogenin production at the end of the vitellogenic cycle.     

The biochemical effects of potassium chloride on the silkworm, （ Bombyx mori L.）

The supplementation with 50, 100 and 150μg/mL potassium chloride to the fifth instar larvae of the silkworm Bombyx mori on fat body glycogen, protein, total lipids and haemolymph protein and trehalose were analyzed. The fat body glycogen and protein and haemolymph protein were increased significantly in all the treated groups; whereas fat body total lipids increased only in 100 and 150μg/mL and haemolymph trehalose increased only in 150μg/mL potassium chloride-treated groups when compared with those of the corresponding parameters of the carrier controls.