Immunological studies of insect metamorphosis. II. The role of a sex-limited blood protein in egg formation by the Cecropia silkworm

1. In the pupal stage of the cecropia silkworm, antigen 7, a protein with the solubility characteristics of an albumin, is present in female blood in approximately a thousand times higher concentration than in the blood of males. Antigen 7 is undetectable in the blood of larvae of either sex. It first appears in the blood after the larva has spun its cocoon, and is present throughout all subsequent stages of metamorphosis. Late in the pupal-adult transformation, when the eggs are produced, the concentration of antigen 7 in female blood decreases significantly. 2. An antigen which could not be distinguished from antigen 7 immunologically is present in solution in the yolk of unfertilized eggs. 3. In females which, by ovariectomy, were prevented from forming eggs, the concentration of antigen 7 in the blood increased during the usual period of egg formation rather than undergoing the normal decrease. Ovaries transferred to the hemocoel of males produced eggs but were unable to incorporate antigen 7 in the yolk unless a detectable amount of the protein was present in the blood. The ovaries of polyphemus females which had been transfused with cecropia blood incorporated cecropia antigen 7 into the eggs they produced. These lines of evidence indicate that antigen 7 is secreted into the blood by some tissue other than the ovaries, and that it is subsequently drawn from the blood and deposited in the yolk. 4. The concentration of antigen 7 in the clear, liquid fraction of the yolk is four times higher than the maximum concentration attained in the blood during metamorphosis, and twenty times higher than that of the blood at the conclusion of egg formation. The protein thus appears to be transferred from blood to yolk against a concentration gradient.     

Influence of thyroid hormones on neuronal death and differentiation in larval Rana pipiens.

The sphingid moth, Manduca sexta, typically passes through five larval instars, a pupal, and an adult stage. The larval labial glands secrete silk in the first instar and a viscous lubricant in the fifth. During metamorphosis the glands develop into salivary organs which produce an invertase-rich secretion. In normal development, the uniform population of cells in the duct of the larval gland transforms into the four sequentially arranged regions of secretory and conductive cells of the adult gland. In order to determine when competence to form the adult gland is established, fragments of labial gland ducts from first through fifth instar larvae were implanted into pupae. These gland fragments underwent metamorphosis with their hosts, passing through the same developmental phases. Glands from as early as the first instar were competent to form histologically and functionally normal adult regions. In later instars, transplants of measured fragments demonstrated that larval cells were programmed in situ to develop into the four adult cell types.     

Intestinal protein dynamics in the stonefly, Pteronarcys californica

Characteristics of the intestinal proteins of a detritus-eating aquatic insect, Pteronarcys californica were assessed to determine their possible role as a nutrient source during metamorphosis. Total soluble intestinal protein was significantly correlated to larval weitht, averaging 3.9% of dry weight for both males and females. Proteinase activity in the gut was separated into several bands by electrophoresis. Electrophoresis patterns of total intestinal proteins of P. californica larvae of differing instar, sex, and diet were remarkably similar. Larvae incubated with tritium-labelled amino acids produced labelled intestinal proteins. When early instar larvae were removed from label, there was no significant loss of tritium from the intestine after 2 months. Penultimate instars labelled in the same manner however, showed depuration of tritium from the gut according to first order kinetics. This loss was correlated to the 6–8 wk non-feeding stage of metamorphosis, just prior to adult emergence. These results indicate that proteins are accumulated in the intestinal tract of immature P. californica, then are reabsorbed from the gut during metamorphosis.     

MHC class I antigens as surface markers of adult erythrocytes during the metamorphosis of Xenopus

An alloantiserum produced against Xenopus MHC class I antigens has been used to distinguish different erythrocyte populations at metamorphosis. By analysis using a fluorescence-activated cell sorter (FACS) analyzer, tadpole (stage 55) and adult erythrocytes have distinct volume differences and tadpole cells have no MHC antigens on the cell surface. Both tadpole and adult erythrocytes express a "mature erythrocyte" antigen marker, recognized by its monoclonal antibody (F1F6). During metamorphosis, immature erythrocytes, at various stages of differentiation, which express adult levels of cell-surface MHC antigens by 12 days after tail resorption, are found in the bloodstream. These immature cells are biosynthetically active, produce adult hemoglobin, and mature by 60 days after the completion of metamorphosis. Percoll gradient-density fractionation has shown that all of the cells in the new erythrocyte series express adult levels of MHC antigens but there is only a gradual increase in the amount of "mature erythrocyte" antigen. Tadpole erythrocytes, which are biosynthetically active during larval stages, produce small amounts of surface MHC antigens before the metamorphic climax and then become metabolically inactive. They are completely cleared from the circulation by 60 days after metamorphosis. Erythrocytes from tadpoles arrested in their development for long periods of time express intermediate levels of MHC antigens, suggesting a "leaky" expression of these molecules in the tadpole cells. The most abundant erythrocyte cell-surface proteins from tadpoles and adults, as judged by two-dimensional gel electrophoresis, are very different.     

Degradation of haemoglobin in Chironomus during metamorphosis

The degradation of haemoglobin (Hb) during the metamorphosis of Chironomus pallidivitatus was studied by means of spectrophotometry, disc electrophoresis, and isotopic tracer methods. Hb concentration was maximal during the late fourth instar larva and exhibited a continual decline throughout the pharate adult periods; in the mature adult Hb is almost entirely absent. Coupled with this reduction in Hb is an increase in the quantity of bile pigment (tentatively identified as bililatrenes) most probably representing products of the Hb degradation. These pigments are found in considerable quantity within the meconium at the time of adult emergence.Larval, ⁵⁹Fe-labelled, Hb injected into late fourth instar larvae was found to be most concentrated in the midgut portion of the early pharate adult. The quantity of ⁵⁹Fe-haemoglobin in the midgut of early pharate adult was at least five times the concentration found in late pharate pupae. Spectrophotometric and electrophoretic analysis of the midgut contents of untreated larvae showed that Hb was one of the major soluble proteins in the midgut at the time of pupation. This rapid intestinal uptake of Hb suggests that the intestine is involved in the mechanism for the degradation and removal of the Hb, no longer required in the adult stage, a seemingly important step in the metamorphosis of this insect.     

Severe developmental timing defects in the prothoracicotropic hormone (PTTH)-deficient silkworm,Bombyx mori

The insect neuropeptide prothoracicotropic hormone (PTTH) triggers the biosynthesis and release of the molting hormone ecdysone in the prothoracic gland (PG), thereby controlling the timing of molting and metamorphosis. Despite the well-documented physiological role of PTTH and its signaling pathway in the PG, it is not clear whether PTTH is an essential hormone for ecdysone biosynthesis and development. To address this question, we established and characterized a PTTH knockout line in the silkworm, Bombyx mori. We found that PTTH knockouts showed a severe developmental delay in both the larval and pupal stages. Larval phenotypes of PTTH knockouts can be classified into three major classes: (i) developmental arrest during the second larval instar, (ii) precocious metamorphosis after the fourth larval instar (one instar earlier in comparison to the control strain), and (iii) metamorphosis to normal-sized pupae after completing the five larval instar stages. In PTTH knockout larvae, peak levels of ecdysone titers in the hemolymph were dramatically reduced and the timing of peaks was delayed, suggesting that protracted larval development is a result of the reduced and delayed synthesis of ecdysone in the PG. Despite these defects, low basal levels of ecdysone were maintained in PTTH knockout larvae, suggesting that the primary role of PTTH is to upregulate ecdysone biosynthesis in the PG during molting stages, and low basal levels of ecdysone can be maintained in the absence of PTTH. We also found that mRNA levels of genes involved in ecdysone biosynthesis and ecdysteroid signaling pathways were significantly reduced in PTTH knockouts. Our results provide genetic evidence that PTTH is not essential for development, but is required to coordinate growth and developmental timing.     

Haemolymph protein patterns in developing tobacco hornworm larvae

Quantitative changes in haemolymph proteins from each physiological phase of the last three larval instars of the tobacco hornworm, Manduca sexta, were studied by means of disk electrophoresis. Twelve anodical migrating protein bands were found, six of which occurred only sporadically. Total protein concentration increased from pharate third instar to late fifth instar larvae, then decreased slightly in the pharate pupal stages. Some individual bands showed cyclic patterns within each instar similar to the overall cyclic pattern of total protein, whereas other bands showed different patterns or no pattern.     

Frog lysozyme. II. Isozymes of lysozyme during the larval development of the leopard frog, Rana pipiens.

Eight isozymes of lysozyme were found differentially distributed among six developmental stages of Rana pipiens. Qualitative changes during early development involved a progressive loss of the more basic isozymes which then reappeared between metamorphosis and maturity. Though the egg contained five isozymes, only two were present by early metamorphosis including one not found in the egg. By metamorphic climax, the four isozymes in the egg were regained and one additional form appeared. By maturity, two less basic forms appeared giving a total of eight isozymes.From hatching to early metamorphosis, lysozyme units per animal increased, but lysozyme units/mg dry weight remained unchanged. Both lysozyme units per animal and units/mg dry weight increased sharply towards the end of metamorphosis.     

Water-soluble proteins in early amphibian embryos. III. Immunoelectrophoretic analysis of the antigenic changes in the ectoderm of the early gastrula and neural plate during development

20 water-soluble antigen have been identified with the help of rabbit antisera to extracts of the early gastrula ectoderm and neural plate in Rana temporaria. All of them were also found in the early blastula embryos and unfertilized eggs. The identified antigens are characterized by a definite embryospecificity. As the development proceeds, the concentration of these antigens in the embryonic tissues decreases until the complete disappearance of corresponding immunoelectrophoretic reactions. By this characteristic all antigens under study are subdivided into four groups: I--five antigens identified at the early developmental stages only (until hatching, stage 29); II--nine antigens present up to stages 33--35; III--three antigens followed up to stages 39--40 (well formed tadpole); IV--three antigens were found at all developmental stages under study up to stages 45--47. 11 out of 20 identified antigens have antigenic similarity with the proteins of blood serum of adult amphibians. Besides, the early gastrula ectoderm contains antigens similar with those of the brain of adult amphibians.     

Cytoskeletal F-actin patterns in whole-mounted larval and adult salivary glands of the fleshfly, Sarcophaga bullata.

The patterns of filamentous actin were analysed in different larval, pupal and adult stages in the salivary glands of the fleshfly Sarcophaga bullata. Using the rhodamine labelled phalloidin staining method in combination with detergent extraction specific actin filament distribution was detected. The salivary glands which are histolysed during the process of metamorphosis show distinct cellular morphology and actin filament patterns in larvae and adults. The large third instar larval salivary gland cells contain a well developed apicolateral microvillar zone. In third instar larvae this microvillar zone invaginates and expands in the basal part of the lateral membranes. Larval salivary gland cells also contain numerous parallel basal actin bundles. The larval glands are histolysed during metamorphosis and adult glands are formed out of the imaginal cell group. At the onset of metamorphosis these basal actin bundles form a network of crossing bundles. The filamentous actin patterns of the proximal part of adult gland cells is confined to the apicolateral microvillar membranes. The cells in the distal, tubular part of the adult salivary glands show intense staining of their folded lateral membranes.     

The ontogeny of multiple hemoglobins in Chironomus thummi (Diptera): The effects of a compound with juvenile hormone activity

The multiple hemoglobins (Hbs) of Chironomus thummi show distinct and significant ontogenetic changes during development from the third instar through the fourth instar and metamorphosis into the pupa. A total of nine Hbs are resolved by 12.7% acrylamide gel electrophoresis (pH 8.65). Hbs 2 and 3, which are stage specific for the fourth instar, are first detected on the fourth day of this stage by electrophoresis and immunoprecipitation. Hb 4 is the predominant Hb species in the early and middle fourth instar, but during the late fourth instar and prepupa, Hb 1 predominates. The concentrations of Hbs 5–9 remain relatively constant in middle instars and decrease during later development. The Hb content of larval hemolymph exhibits changes that coincide with developmental stages; molting is characterized by low Hb content, whereas, the hemolymph of intermolt animals contains relatively high levels of Hbs. Treatment of fourth instars with a juvenile hormone analog, Altosid, prolongs this stage and inhibits the progress of normal development resulting in the formation of larval-pupal intermediates. Altosid also appears specifically to inhibit the accumulation of soluble hemolymph proteins related to pupation and metamorphosis, without affecting the concentration of Hb. Most significantly, it induces the precocious appearance of Hbs 2 and 3, which remain elevated above control levels in the late larval and prepupal stages. The present results strongly suggest that Altosid stimulates the appearance and accumulation of larval-specific proteins in vivo, while it inhibits the appearance of pupation-related proteins.     

Antijuvenile influence of the precocene on the development of adult antennae in the large fruit-tree tortrix Archips podana Scop. (Lepidoptera: Tortricidae)

The influence of precocene II, an antijuvenile agent, on the development of adult antennae in the large fruit-tree tortrix A. podana Scop. was demonstrated. Treatment of the fifth instar larvae and prepupae with different doses of precocene proved to cause different sensitivity of the specimens to the juvenile hormone deficit. Treatment with 450 and 600 ??g precocene per specimen during the first days after ecdysis to the fifth instar caused the death of larvae. Treatment with 300, 450, and 600 ??g per specimen on the third day of the fifth instar larvae and prepupae caused a delay in the development of adult antennae. The results are discussed with respect to the role of the juvenile hormone in the development of imaginal structures during metamorphosis.     

Analysis of precocious metamorphosis induced by application of an imidazole derivative to early third instar larvae of the silkworm,Bombyx mori

When an imidazole derivative (KK-42) was applied to day 1 third instar larvae of the silkworm, Bombyx mori, 100% underwent precocious metamorphosis at the end of the fourth instar. Thus, the fourth instar becomes the last instar in these KK-42–treated larvae. The endocrine systems underlying the precocious metamorphosis were analyzed in the present study. Hydroprene application during the prolonged third instar after KK-42 treatment can prevent precocious metamorphosis, and the results showed dose-dependent and stage-specific effects. From analysis of the developmental changes in ecdysteroid levels in both KK-42–treated larvae and KK-42– and hydroprene-treated larvae, we conclude that changes in JH levels during the third larval instar can modify the secretion pattern of prothoracic glands and that during the next larval instar, very low ecdysteroid levels during the early stages of the presumptive last (fourth) larval instar are directly related to precocious metamorphosis. Arch. Insect Biochem. Physiol. 36:349–361, 1997. © 1997 Wiley-Liss, Inc.     

Insect larvae contain substances toxic to adults: the discovery of paralysins

Acidic methanolic extracts of larvae of nine different insect species were found to contain substances that cause a lethal effect in the adult stage of the same species and of other species. These endogenous toxic substances, apparently being widely spread over the class of insects, were designated as paralysins, because of their immediate and observable paralytic effect upon injection. The developmental concentration curves of five different species of insects (Galleria mellonella (Lepidoptera), Neobellieria bullata (Diptera), Spodoptera frugiperda (Lepidoptera), Tenebrio molitor (Coleoptera) and Schistocerca gregaria (Orthoptera) indicate that the toxins are not present throughout all the developmental stages in the same concentration. The strongest paralytic activity was found in late instar larvae or in the early pupal stage. The temporal distribution of paralysins during development suggests that they might be involved in metamorphosis.     

Cytochrome oxidase activity during diapause and metamorphosis of the Japanese beetle,Popillia japonica Newman

1. Determinations were made on the activity of cytochrome oxidase of individual Japanese beetles during growth, diapause, and metamorphosis. All readings were made on homogenates at a dilution of 1:1,000, except for adult beetles, when the final dilution was 1:10,000. 2. The activity of the enzyme increased during larval growth from a low value of 0.022 in the second instar, to high values ranging from 0.074 to 0.083 in diapause third instar larvae. 3. The high activity of cytochrome oxidase during larval diapause indicates that this condition may be physiologically different from that occurring in the egg or pupal stages of most other insects. 4. During metamorphosis, the activity of cytochrome oxidase follows the characteristic U-shaped curve associated with respiratory metabolism. It thus appears that most of the oxidation occurring in metamorphosing individuals is mediated through the cytochrome system. 5. The activity of cytochrome oxidase is significantly higher in the adult male than it is in the adult female; the values (calculated on the basis of a 1:1,000 dilution) were 0.40 ± 0.028 and 0.25 ± 0.012, respectively.     

Parasitism of Western Corn Rootworm Larvae and Pupae by Steinernema carpocapsae

Virulence and development of the insect-parasitic nematode, Steinernema carpocapsae (Weiser) (Mexican strain), were evaluated for the immature stages of the western corn rootworm, Diabrotica virgifera virgifera LeConte. Third instar rootworm larvae were five times more susceptible to nematode infection than second instar larvae and 75 times more susceptible than first instar larvae and pupae, based on laboratory bioassays. Rootworm eggs were not susceptible. Nematode development was observed in all susceptible rootworm stages, but a complete life cycle was observed only in second and third instar larvae and pupae. Nematode size was affected by rootworm stage; the smallest infective-stage nematodes were recovered from second instar rootworm larvae. Results of this study suggest that S. carpocapsae should be applied when second and third instar rootworm larvae are predominant in the field.     

Variation in growth and instar number in field and laboratory Manduca sexta

The tobacco hornworm Manduca sexta has been an important model system for understanding physiological control of growth, development and metamorphosis of insects for more than half a century. Like all Manduca, M. sexta typically has five larval instars, with developmental commitment to metamorphosis occurring early in the 5th (final) instar. Here we show that M. sexta from a field population in North Carolina (USA) shows substantial intraspecific variation in the number of larval instars when feeding on a modified artificial diet. Individuals with six instars consistently exhibited slower growth rates during early larval development than individuals with five instars. The frequency of individuals with six instars decreased with increased rearing temperature. In contrast, M. sexta from a laboratory colony consistently had five instars, and had more rapid larval growth rates than M. sexta from the field. We identify a threshold body size at the start of the 5th instar that predicts whether an individual will have five (greater than 600mg) or six instars (less than 600mg). Variation in field populations in Manduca provides an important resource for understanding physiological control, developmental plasticity and evolution of growth rate, body size and instar number.