Mobilization of carbohydrates in tissues of female silkworms, Bombyx mori, during metamorphosis

The metabolic activity and mobilization of carbohydrates among tissues of female silkworms were examined during metamorphosis by injecting radioactive ¹⁴C-glucose as a tracer. The isotope injected was incorporated into various tissues with varying degrees and reached a relatively stable state in all tissues tested in about 240 min. The metabolic activities analysed by 4 hr pulse labelling were different for different tissues and ages; in glycogen synthetic activity midgut was highest on the day of the larval-pupal ecdysis, the fat body 2 days later, and ovaries a further 4 days later.When the isotope was injected on the day of larval-pupal ecdysis, it was found predominantly in glycogen first in the midgut, then in the fat body, and finally in the ovaries, proceeding through development. The total radioactivity recovered in the glycogen fractions from these tissues was almost constant throughout development. Ovariectomy caused a rise in synthesis of both glycogen and trehalose in the fat body during the second half of development.From these results it is proposed that the dermand of developing ovaries for carbohydrates exerts a controlling influence over mobilization of glycogen in the fat body.     

Sex differences in the lipolytic activity of Galleria mellonella fat body

The sexual differences in the intensity of production and release of free fatty acids (FFA) as well as the differences in the absolute amount of FFA produced and released from the fat body are most conspicuous at the sixth day after the larval-pupal ecdysis. Furthermore, it is demonstrated that a significant difference exists in the lipolytic activity of the fat body between the two sexes.     

Control of juvenile hormone esterase activity in Galleria mellonella larvae

The juvenile hormone esterase (JHE) activity in Galleria mellonella larvae was measured after exposure to different experimental conditions that affect larval-pupal transformation. The data show that stimulation of production of JHE is closely coupled with the developmental signals that intiate larval-pupal metamorphosis. Injury, which delays pupation, delays the appearance of JHE activity if the larvae are injured within 48 hr after the last larval moult. Chilling of day-0 larvae induces a supernumerary larval moult and inhibits the appearance of JHE. However, JHE activity increases in chilled larvae when their commitment for an extra larval moult is reversed by starvation. Starvation is effective in reversing the commitment for an extra larval moult if commenced within 48 hr after chilling, thereby suggesting a critical period for that commitment. These data suggest that the stimulus for JHE synthesis and/or release occurs approximately within 48 hr after the last larval ecdysis. A series of studies involving implantation of brain, suboesophageal ganglion and fat body into chilled, as well as chilled and ligated larvae suggest that a factor from the brain is involved in stimulation or production of JHE in Galleria larvae.JH, which suppresses JHE activity in day-3, -5 and early day-6 Galleria larvae, stimulates the production of JHE in late day-6 larvae, suggesting that reprogramming in larval fat body may occur on day 6 of the last larval stadium.     

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.     

Further studies of the effect of L-canavanine on the tobacco hornworm, Manduca sexta.

Fifth instar Manduca sexta growth response to injected doses of canavanine was concentration-dependent over a range of 0·5 to 2·0 mg/g body weight. Twenty-four hr after injection of ¹⁴C-guanidinooxy-d,l-canavanine, M. sexta larvae incorporated approximately 3·6% of the labelled l-canavanine into protein of non-gut tissue. Adult M. sexta mortality was related to the level of injected canavanine over a range of 2 to 8 mg/g body weight. Injection of as little as 2 mg canavanine/g body weight caused hyperactivity in adult M. sexta. Arginine, able to negate the toxic effects of canavanine during larval growth, was only marginally capable of overcoming canavanine effects on larval-pupal ecdysis.     

Fat body stimulation of ecdysone synthesis in Heliothis zea

Prothoracic glands of Heliothis zea pupae require both a humoral factor and prothoracicotropic hormone (PTTH) to synthesize ecdysone. The humoral factor is absent when pupae are maintained at diapause-sustaining temperatures. Thus, pupae remain in diapause despite the release of PTTH at or before larval-pupal ecdysis.Tissue implantation experiments revealed that a diapause-terminating factor is present in the fat body of non-diapausing pupae. Other tissue implantation experiments showed that, when diapausing pupae were transferred from 19 to 27°C, diapause-terminating activity appeared first in the fat body and then the fat body into the haemolymph. HPLC separation of the haemolymph and fat body fractions followed by bioassay demonstrated that fractions containing diapause-terminating activity eluted from both tissues within 28–30 min. These results suggest that the factors found in the fat body and haemolymph may be the same compound.Evidence from ecdysone radioimmunoassay experiments ruled out the possibility that the diapauseterminating activity was due to either free or conjugated ecdysteroids. Corresponding in vitro experiments in which the prothoracic glands were cultured with brain extracts versus fat body and haemolymph fractions also indicated that the haemolymph/fat body factor was not PTTH.     

Changes in fat body urate synthesizing capacity during the larval-pupal transformation of the tobacco hornworm, Manduca sexta

Large quantities of uric acid or urates are deposited in the fat body of tobacco hornworms, Manduca sexta, between the larval and pupal stages in development. The cause of this increased deposition was investigated by measuring fat body urate synthesizing capacity (USC) during the larval-pupal transformation (LPT). An 85% loss in USC occurs between the late-feeding larval and newly-ecdysed pupal stages. Urate synthesizing capacity, per se, is not responsible for the increase in fat body urate deposition, as evidenced by comparable rates of urate deposition in insects whose USCs differ by a factor of three. Rather, the increased deposition is caused by an increase in substrate availability. The loss in USC is programmed in two steps. The first programmed loss occurs by the end of the feeding fifth larval instar, since hornworms ligated at the pink stripe (PS) stage and measured at the time of the larval-pupal ecdysis (LPE) exhibit an increased retention of USC relative to controls. The second programmed loss in USC occurs between PS + one and PS + two day stages in development. A single administration of 20-hydroxyecdysone to hornworms ligated at the PS stage causes a restoration of this loss in USC by PS + two days, which is further sustained until the LPE. Unexpectedly, when measured immediately after the LPE, the second programmed loss in USC can be delayed until PS + 3 days if non-ligated hornworms are daily administered 20-hydroxyecdysone. The possibility is raised that 20-hydroxyecdysone does not act alone in causing the loss in fat body USC.     

Quantitative changes and synthesis of cyanoprotein in whole body and tissues during development of the bean bug,Riptortus clavatus

Changes in biliverdin-binding cyanoprotein content in whole body and tissue extracts during development of nymphal and adult (non-diapause) bean bugs, Riptortus clavatus were analyzed by rocket immunoelectrophoresis (RIE). RIE using anti-CPegg serum can be used to determine the content of CP-A (Cp-1, 2 and 3) and CP-B (CP-4) separately. During the nymphal stage CP content of whole body changes cyclically in each instar. In the first nymphal instar, CPegg is the main CP which disappears during the first-second instar ecdysis. In nymphal bugs from the 2nd to 4th instars only CP-B (CP-4) is detected, and at the beginning of each instar the CP content is very low but increases toward the next ecdysis, after which CP decreases and disappears very rapidly. In the 5th nymphal instar, CP-B is the major CP but CP-A (CP-1, 2 and 3) is also detected. These changes in whole body CP content of 5th instar nymphs are observed in both females and males. The content of total CPs in the 5th instar nymph reaches about 1000 μg in the whole insect. During nymphal-adult ecdysis, nymphal CPs decrease and disappear at day 2 after emergence. In female adults CP-A (CP-1 only) increases rapidly after day 4 of adult emergence, while no CP is detected in male adults. In females CPs were detected only in the fat body, hemolymph and ovary. In the mid-5th-instar nymphs, CPs (CP-A and B) are mainly distributed in the hemolymph. CPs in the Hemolymph decrease during nymphal-adult ecdysis, whereas they increase in the fat body. CPs disappear from both the hemolymph and fat body by 2 days after ecdysis. Subsequently in the adult stage only CP-A increases again in the fat body and ovary. By tracer experiments using [³⁵S]-methionine, the fat body was shown to be the site of CP synthesis. CP-A and B synthetic activity was detected in nymphal females whereas, only CP-A synthesis was observed in adult females, while no CP synthesis was seen in adult males.     

The ecdysteroid titres during the last-larval instar of Ephestia kuehniella Z. (Lepidoptera: Pyralidae)

The ecdysteroid titre and the body weight during the last-larval instar of Ephestia kuehniella were determined. Slightly elevated ecdysteroid titres occur during the first 12 h following the last larval-larval ecdysis (38 ng/g) and again some 120 h later, lasting about 48 h (33 ng/g). A high ecdysteroid peak (750 ng/g) with a maximum in prepupae of the eye-class A4 precedes the larval-pupal ecdysis. The basal levels between these increased ecdysteroid titres are between 13 ng/g and 15 ng/g. Compared with the body weight, the first sligtly increased ecdysteroid titre 12 h after ecdysis is associated with the beginning of food intake, the second increase at 144 h after ecdysis with reduced gain in body weight. The prepupal ecdysteroid peak occurs whilst the body weight remains constant. Correlations between the varying ecdysteroid titre and morphological and physiological events accompanying the progress in larval-pupal development are discussed.     

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.     

Subcellular localization of uric acid storage in the fat body of Manduca sexta during the larval-pupal transformation

The fat body of the tobacco hornworm, Manduca sexta, serves as the major site for uric acid storage during metamorphosis. Light and electron microscopic examinations of fat body stained with reduced silver to show the location of stored uric acid have revealed that most, if not all, fat body cells store uric acid. The extent of specific staining is proportional to the increase in uric acid concentration in fat body during the initial stages of metamorphosis. Storage is associated with discrete membrane-bound structures, designated as uric acid storage vacuoles. In larval fat body, the structures are round or elliptical-shaped vacuoles with electron-dense fibrous interiors and are about the size of observed mitocondria (0.5–1.0 μm). During the larval-pupal transformation, the storage vacuoles double in size and appear as fibrous cores with spaces between the cores and the surrounding membranes. Before pupal ecdysis, the storage vacuoles are concentrated around the nucleus of each cell but after that event they are more uniformly distributed within fat body cells.     

Phenol oxidases from Rhodnius prolixus: Temporal and tissue expression pattern and regulation by ecdysone

Rhodnius prolixus 5th instar nymphs have significant PO enzymatic activity in the anterior midgut, fat body and hemolymph. The tissue with the major amount of PO activity is the anterior midgut while those with higher specific activities are the fat body and hemolymph. In this work the temporal pattern of PO enzymatic activity in different tissues was investigated. In fat body, PO peaks occur at 7, 12 and 16 days after a blood meal. In hemolymph, PO diminishes until day 7, and then recovers by day 14. In the anterior midgut tissue, PO peaks on day 9 and just before ecdysis; a similar pattern was observed in the anterior midgut contents. Some of these activities are dependent on the release of ecdysone, as feeding blood meal containing azadirachtin suppresses them and ecdysone treatment counteracts this effect. These results suggest that during the development of the 5th instar, the insect has natural regulating cycles of basal PO expression and activation, which could be related to the occurrence of natural infections. The differences in temporal patterns of activity and the effects of azadirachtin and ecdysone in each organ suggest that, at least in R. prolixus, different tissues are expressing different PO genes.     

Temporal pattern of changes in mitotic frequency in the epidermis and other larval tissues of Bombyx mori

Temporal changes in mitotic frequency were examined in various tissues through late larval life of Bombyx mori. From the second larval ecdysis to the third and from the third larval ecdysis to the fourth, there was a definite temporal change of mitotic pattern in each tissue. In the epidermis as well as in the tracheal epithelium, mitoses began to appear about 1 day after an ecdysis, and showed a maximum 1 to 2 days after an ecdysis. In the fat body, mitoses were observed continuously through the instars, and the mitotic frequency showed a maximum state just before an ecdysis. In the abdominal muscle the frequency was highest at about the middle of the period between two successive ecdyses. Furthermore, epidermal mitoses coincided with the time when the density of epidermal nuclei per unit area decreased to a half. This suggests that epidermal mitoses may be initiated by some process related to the increase in cell size.     

Choline and β-methylcholine acetylation in pupae of the moth, Celerio euphorbiae

Acetylation of choline and β-methylcholine in the tissues of Celerio euphorbiae was investigated during development after larval-pupal ecdysis in diapausing and non-diapausing generations. β-Methylcholine was acetylated more efficiently than choline. The stage- and sex-dependent changes in acetylating activity have been observed, their patterns being similar for both substrates. K⁺ and Na⁺ ions do not influence the specificity of the acetylation process.     

The developmental profile of paramyosin and other myofibrillar proteins of larval and imaginal thoracic muscles of Lepidoptera

The synthesis of paramyosin and other myofibrillar proteins of the thoracic muscles of the tobacco hornworm Manduca sexta was studied by immunological and electrophoretical methods during the histolysis of the larval thoracic muscles and the differentiation of the indirect flight muscles. Antigens of the myofibrillar proteins in the thoracic muscles of the last-larval stage cross reacted with those in the flight muscles of the adults against polyspecific antibodies from actomyosin and monospecific antibodies from paramyosin. After the breakdown of the larval thoracic muscles (2 days from larval-pupal ecdysis) these antigens can no longer be detected in the thorax. The results indicate an almost complete removal of the larval thoracic muscles. Paramyosin could be identified again in a homogenate of the thoracic muscles of animals on the 13th day from larval-pupal ecdysis. Paramyosin is the first protein found during the differentiation of the flight muscles. The other myofibrillar proteins could be identified in thoracic homogenates of pharate adults of Manduca sexta on the 14th and 15th day from larval-pupal ecdysis. On the 14th day from larval-pupal ecdysis the dorso-longitudinal muscle and the tergosternal muscles show cross-striation, and the appearance of most of the electrophoretical results are in accordance with immunological and morphological findings. The myofibrillar proteins of the indirect flight muscles of Manduca sexta are synthesized de novo during metamorphosis.     

Molting hormone titer changes and their significance during development of the colorado beetle, Leptinotarsa decemlineata

Molting hormone (MH) titer in whole animal extracts of Leptinotarsa decemlineata was determined by chemical extraction and the Musca test (1 MU = 3.5 ng ecdysterone) during the developmental span from newly-ecdysed fourth instar larva to an adult 3 days after eclosion. Within the 17-day period, 21 age groups were chosen to estimate the MH titer. Two peaks of MH titer were detected, one in the post-feeding larval stage and the other during the pupal and pharate adult stage. MH activity was first detected in 2-day-old post-feeding larvae, and reached a maximum of 23.5 MU/g tissue on the third day. It began to decline on 3.5 days, and fell to 5.5 MU/g tissue on 4.5 days, the time of larval-pupal ecdysis. In the pupal and pharate adult stage MH rose after the first day and increased to a maximum of 91.5 MU/g tissue on the third day. The titer again declined on the fourth day, and became undetectable one day before adult emergence and in adults 3 days after emergence. MH was demonstrated to be produced by isolated larval abdomens. A peak of 11.5 MU/g tissue was detected in 7-day post-ligation preparations. The titer decreased to 6.9 MU/g tissue in 10-day post-ligation preparations, which was the time of the ecdysis. The finding raises questions concerning the rôle of MH synthesis by other tissues in relation to the function of the prothoracic glands during insect development.     

Comparative studies of oxidative enzyme systems in epidermis and fat body of diapausing and non-diapausing silkmoths

The activities of four oxidative enzyme systems, including NADH oxidase, succinate-cytochrome c reductase, NADH-cytochrome c reductase, and cytochrome c oxidase, were compared in mitochondrial-microsomal preparations from wing epidermis and fat body of diapausing Samia cynthia pupae, presumptively non-diapausing S. cynthia ricini pupae which were caused to diapause by removal of the brain, and non-diapausing S. cynthia ricini during the pupal and pharate adult period. In diapausing pupae the activities of all enzyme systems were low and presented a profile similar to that previously reported for the Cecropia silkmoth. By contrast, in non-diapausing individuals the activities showed substantially higher levels, and an essentially unchanging pattern from just after the larval-pupal ecdysis through most of adult development. These events are functionally correlated with the patterns of biosynthetic activity in diapausing and non-diapausing silkmoths and are discussed in relation to the endocrine control of diapause and development.     

Tyrosine and phenylalanine concentrations in haemolymph and tissues of the American cockroach, Periplaneta americana, during metamorphosis

Phenylalanine and tyrosine concentrations were measured in the haemolymph, fat body, and abdominal integument of the American cockroach, Periplaneta americana, during the pre- and post-ecdysial periods of cuticle formation and sclerotization.Gas-liquid chromatography of trimethylsilyl derivatives of phenylalanine, tyrosine, and their metabolites provided a very sensitive and rapid method for determining those amino acids in small haemolymph and tissue samples.Haemolymph tyrosine increased in two stages: initially near apolysis and 16 to 25 hr pre-ecdysis, reaching its highest concentration at ecdysis (3·5 μg tyrosine/mg haemolymph). During that time, total haemolymph tyrosine increased by approximately 700 μg/insect. Fat body and abdominal integument began to accumulate tyrosine near apolysis. Fat body tyrosine peaked between ecdysis and 3·3 hr post-ecdysis whereas abdominal integument tyrosine peaked at ecdysis. Maximum concentrations were 6·0 μg and 4·1 μg tyrosine/mg wet wt. of tissue, respectively. Between ecdysis and 24 hr post-ecdysis, the period of maximum sclerotization, total tyrosine in haemolymph and fat body decreased by approximately 600 μg and 420 μg/insect, respectively. Phenylalanine concentrations did not change significantly in the haemolymph, fat body, or abdominal integument during the pre- and post-ecdysial periods.The cockroach apparently does not store free phenylalanine or tyrosine in the fat body during larval development as compared to tyrosine storage in some Diptera. The rapid increase of haemolymph, fat body, and integument tyrosine just prior to ecdysis suggests another form of storage for this important amino acid.     

Treatment of larvae with repeated doses of precocene II induces precocious metamorphic changes in Spodoptera mauritia (Lepidoptera: Noctuidae)

In Spodoptera mauritia repeated daily treatments of larvae with 40 μg of precocene II throughout the fifth and sixth instar larval period had no effect on the larval-larval period but prolonged larval-pupal ecdysis. The resulting pupae showed precocious adult differentiation of mouth parts, wings, eyes, legs, and fat body.     

Changes in the activity of dopa quinone imine conversion factor during the development of Bombyx mori

The activity of DOPA quinone imine conversion factor (QICF) in tissues at different developmental stages of the silkworm, Bombyx mori, was determined. QICF activity was detected in all developmental stages from egg to pupa although the activities, other than in fifth instar larvae, were quite low. Activity in whole larvae peaked one day before the onset of larval-pupal development and declined to a low level shortly before ecdysis. In whole pupae, maximal QICF activity was obtained 1 h after pupation. The activity in larval cuticles was elevated on the last day of the fourth instar and again between days 4 and 8 of the fifth instar, decreasing to very low levels before pupal ecdysis. QICF was detectable in pupal cuticles with most of the pupal activity found in homogenates of mid and hind guts. A major part of the total larval QICF activity was found in hemolymph. Activity in hemolymph varied in a different manner from that in cuticles, with markedly raised levels immediately before pupal ecdysis when the cuticular activity had declined. It is postulated that QICF in cuticles plays some role in wound healing and/or sclerotizatio,, while QICF in hemolymph participates in melanization in the humoral immune system.