Feeding causes the appearance of a factor in the haemolymph that stimulates protein synthesis

Soon after a locust (Locusta migratoria) begins to feed, an increase in protein synthesis can be detected in the animal. Isolation of fat body shows that this tissue synthesizes protein at a faster rate in recently fed animals than it does in fasting insects. Fasting locusts injected with haemolymph from fed insects increased protein synthesis when compared with locusts injected with haemolymph from fasting locusts. The factor causing this increase was present in the haemolymph within 5 min of feeding. Feeding or direct contact with the food was not essential to increase protein synthesis. Exposure of fasting locusts to feeding insects was sufficient to elevate the rates of protein synthesis in the fasting animals.The increase inprotein synthesis was not a result of general excitation or an increase in the concentration of tryptophan or isoleucine in the haemolymph. Ecdysteroid titres were uniformly low during the first ten days of adult life. Gel filtration of the fed haemolymph revealed a low molecular weight fraction (about 600 daltons) which stimulated protein synthesis upon injection into fasting locusts.     

On the relative importance of juvenile hormone and vitellogenin for oöcyte growth in the cockroach Nauphoeta cinerea

The corpora allata of castrated females of Nauphoeta grow only very slightly and do not reach a volume greater than that of the glands of normal females during gestation. These small corpora allata are, however, active and are responsible for the synthesis of vitellogenin (female specific protein) in large amounts. Besides vitellogenin the other haemolymph proteins are also synthesized and accumulated in the haemolymph in much higher concentrations than in normal females. Implanted oöcytes grow in castrated as well as in normal females at about the same rate until the tenth day of the oöcyte maturation period. Thereafter they only grow in castrated females. If castrated and normal females are decapitated, their protein content decreases. At the same time the growth stimulating capacity of their haemolymph decreases at a much faster rate. If oöcytes are implanted in castrated and decapitated females after 4 days they cannot grow any more although the vitellogenin titre of the haemolymph is still much higher than it is at any time in normal females. It can be concluded that vitellogenin alone cannot induce oöcyte growth and that juvenile hormone is necessary as well for vitellogenin synthesis as for its incorporation into the oöcytes. However, in insects rich in vitellogenin juvenile hormone leads to a more rapid oöcyte growth than in insects containing only small amounts of this protein.     

The steroidogenic action of haemolymph stimulatory factor in Manduca sexta: Comparisons with prothoracicotropic hormone

A recently described protein, found in the haemolymph of Manduca sexta larvae, stimulates ecdysone synthesis by both larval and pupal prothoracic glands in vitro. The mode of action of this haemolymph stimulatory factor has been investigated, particularly as it compares to the action of the cerebral neuropeptide, prothoracicotropic hormone (PTTH). Unlike PTTH, the haemolymph factor does not stimulate ecdysone synthesis via an increase in the level of cAMP in the prothoracic glands. The haemolymph factor requires extracellular calcium for maximal stimulation of the prothoracic glands, but in contrast to PTTH, significant activity is retained in calcium-free medium. Exposure of the prothoracic glands to the haemolymph factor results in enhanced steroidogenesis within 1 min. This rapid stimulation contrasts with the 10–20 min lag period observed following PTTH exposure. However, the prolonged activation elicited by brief exposure to PTTH is not observed following exposure of the glands to the haemolymph stimulatory factor. Rather, the factor appears to be required as a sustained stimulus in order to exert its steroidogenic effects. The data indicate that the mode of action of the haemolymph factor is distinctly different from that reported previously for PTTH, and are consistent with the hypothesized role of the factor as a carrier of a sterol precursor utilized in ecdysone synthesis.     

The control of the proventriculus in the honeybee (Apis mellifera carnica L.) II. Feedback mechanisms

The mechanisms underlying the control of solution transport rates through the proventriculus in foraging honeybees were investigated in individuals trained to collect defined amounts of sugar solutions. Following feeding, bees were injected either with metabolisable (glucose, fructose, trehalose), or non-metabolisable (sorbose) sugars, in order to distinguish between haemolymph osmolarity and haemolymph sugar levels as factors controlling the solution transport rates through the proventriculus. After a fixed period, workers were dissected in order to measure crop content and haemolymph sugar titers. Between feeding and dissection, the metabolic rate of every investigated forager was measured using open-flow respirometry. Bees injected with metabolisable sugars 15 min after feeding were observed to reduce their solution transport rates through the proventriculus, but injection of non-metabolisable sugars had no influence on them. This suggests that the solution transport rate through the proventriculus is controlled by the concentration of metabolisable compounds in the haemolymph, and not by the haemolymph osmolarity. A period of 10 min after injection of metabolisable sugars was enough to observe reduced solution transport rates. However, if bees were injected only 5 min after feeding, no reduced solution transport rates were observed 10 min after injection.     

Insect immunity: Induction of cecropin and attacin-like antibacterial factors in the haemolymph of Glossina morsitans morsitans

Injections of live Escherichia coli into adult tsetse flies, Glossina morsitans morsitans induced an antibacterial activity in the haemolymph after a lag period of 6–18 hr. Peak activity occurred after 24–72 hr with a dose of 10⁴ bacteria/fly. Acidic electrophoresis of immune haemolymph from G. m. morsitans followed by an antibacterial assay on the gel revealed the presence of cecropin- and attacin-like factors. The induction of antibacterial activity in tsetse was completely blocked by injection of cycloheximide, a known inhibitor of protein synthesis in eukaryotic organisms. Purified InA from Bacillus thuringiensis, a proteolytic enzyme with specificity for cecropins and attacins in haemolymph, inactivated the antibacterial activity in tesetse immune haemolymph. When tested against 10 different bacterial species, the spectrum was the same for the antibacterial activity in immune haemolymph from tsetse and Cecropia.     

Restricted specificity of a hyperglycaemic factor from the corpus cardiacum of the stick insect Carausius morosus

Extracts of the corpora cardiaca of the stick insect Carausius morosus elevate the haemolymph carbohydrate concentration in adult and 6th-instar larvae which are ligated behind the first pair of legs, but not in non-ligated (intact) insects. The increase in haemolymph sugars is due to trehalose elevation, is time dependent (with a maximal effect about 90–120 min after injection), and is dose dependent (needing 0.005 gland equivalents for a significant effect and a tenfold higher dose for a maximal response). The hyperglycaemic factor is localised entirely in the corpora cardiaca and appears to be specific to stick insects; corpora cardiaca extracts of two lepidopteran species (Acherontia atropos and Aglais urticae) and of Locusta migratoria have no effect, whereas corpora cardiaca extracts of the stick insects Cuniculina impigra and Sipyloidea sipylus have similar activity to those from C. morosus. This specificity is also shown when S. sipylus is used as the recipient. Synthetic adipokinetic hormone and red pigment concentrating hormone possess no hyperglycaemic activity in the stick-insect system. Two peaks of hyperglycaemic activity were obtained after column chromatography of corpora cardiaca extract of C. morosus on Sephadex G-25 and Sephadex LH-20. The factor seems to act via activation of fat-body glycogen phosphorylase, which, although 60% active in the control insects, is significantly increased to approx. 85% upon corpora cardiaca injection. However, the activation is demonstrated in ligated and intact insects. No significant decrease in the glycogen level of the fat body is observed after corpora cardiaca injection.     

Immune reactions of Chironomus larvae (Insecta: Diptera) against bacteria

Humoral encapsulation (“melanization”) represents the predominant defence reaction of Chironomus larvae against injected bacteria. Only low levels of phagocytic activity were observed; cellular encapsulation and nodule formation were completely missing due to low numbers of haemocytes. No other humoral antibacterial activity was detected in normal Chironomus haemolymph and even haemolymph of preinjected (“immunized”) Chironomus larvae showed little inhibition of bacterial growth on agar test plates.Low cellular and lytic activity of Chironomus haemolymph against bacteria is well compensated for by its fast and efficient capacity of humoral encapsulation. Within 5–10 min, even high numbers of injected bacteria (up to 10⁵ per larva) were surrounded by capsular material. Within this range of injection dose, the fates of pathogenic and non-pathogenic strains were identical, and bacteria which are highly pathogenic for many other insects, e.g. larvae of Galleria mellonella, proved to be harmless to Chironomus larvae. The rapidity of humoral encapsulation may prevent the release of toxins or enzymes by which pathogenic bacteria normally damage its host and weaken its immune system.     

Selective depletion of the plasmatocytes in Galleria mellonella following injection of bacteria

Injection of a suspension of a bacterial pathogen, Bacillus cereus, into larvae of the wax moth, Galleria mellonella, resulted in the disappearance of plasmatocytes from the haemolymph. This depletion effect was dose dependent, and occurred within 5 min of injection of the bacteria. Similar effects, though of lesser intensity, followed injection of a number of other species of both pathogenic and nonpathogenic bacteria. This rapid and specific reaction may play a part in the natural response of insects to the injection of foreign bodies.     

Haemagglutinin activity in the haemolymph of individual Acrididae (grasshopper) specimens

Twenty-four individual grasshopper specimens representing four Melanoplus spp. contained similar broad-spectrum haemolymphatic haemagglutinin. The agglutinin activity showed highest titre toward human ABO and rabbit cells among nine types of erythrocytes tested. Titre values differed between individual insects but agglutination specificity toward different erythrocytes was similar. Agglutination of type-O red cells by individual grasshopper haemolymph was inhibited by 34 of 41 tested carbohydrates, carbohydrate derivatives, alcohols and chelating agents. Individual insects showed similar patterns of haemagglutination inhibition. Non-inhibitory compounds were mannose and mannose derivatives (excepting N-acetylneuraminate), several glucose derivatives, amino sugars and ethanol. The observations indicated that haemolymph from an individual grasshopper contained complex heteroagglutinin activity similar to that found in haemolymph pooled from several insects. Determination of minimal effective inhibitor concentrations confirmed the presence of heteroagglutinin activity primarily directed toward galactose and glucose and related α-linked glycosidic derivatives.     

Quantitative studies on the activity of the corpora allata in adult male Locusta and Schistocerca

Juvenile hormone has been detected in the haemolymph and corpora allata of adult male Locusta and the haemolymph of adult male Schistocera by a modified Galleria bioassay. The hormone was readily detected in the haemolymph of insects immediately after the final ecdysis, but then became difficult to detect until 2 days prior to the onset of sexual maturation. In sexually mature insects the titre of juvenile hormone was maintained at a constant level. The corpora allata of adult male Locusta increased in size throughout adult life. The juvenile hormone content of the corpora allata was low during the period of somatic growth, but increased at the onset of sexual maturation. Sectioning of the nervi corporis allati I in insects immediately after the final ecdysis prevented the normal increase in size of the corpora allata, but did not render them inactive since juvenile hormone was detected in the haemolymph after the operation. The half life of juvenile hormone in the haemolymph of allatectomized adult male Locusta was 1 to 2 hr.     

The toxic effects of phenoloxidase from the haemolymph of tenebrionid beetles

The injection of haemolymph originating from several species of tenebrionid beetles into blowfly larvae caused a gradual paralysis accompanied by colour changes in the haemolymph of the injected test insects. It was found that the lethal effect of the haemolymph of the beetle Blaps sulcata was due to phenoloxidase. The enzyme was activated by the exposure and incubation of the haemolymph at room temperature.The identity between the toxic factor and phenoloxidase in the beetle's haemolymph was demonstrated by the following data: (1) A correlation between the rate of lethal and phenoloxidase activities during the activation process of the toxic haemolymph. (2) Phenylthiourea, a well-known inhibitor of phenoloxidase, inhibited both the enzymatic and the toxic action of the beetle's haemolymph. (3) A commercial preparation of phenoloxidase (originating from mushrooms) imitated the lethal effects and the accompanying symptoms of the toxic haemolymph. (4) Sephadex G-100 column separation of the Blaps haemolymph revealed a complete overlap between the enzymatic and lethal regions of the elution pattern.The possible effects of phenoloxidase on the haemolymph of the injected insects are discussed.     

Thymidine metabolism and the monitoring of DNA synthesis in insects

The thymidine degradation pathway established for other organisms is confirmed in insects. When ³H-TdR is used as a marker for DNA synthesis in developing silkmoths, some is incorporated into DNA and some degraded to compounds not incorporated into DNA. After a single injection, ³H-TdR is rapidly cleared from haemolymph and other tissue, resulting in, at most, a 4 hr pulse. In wing tissue, detection of DNA synthesis is possible for a maximum of 4 hr after injection of precursor and for 6 hr in vitro. Continuous monitoring of DNA synthesis can be attained by perfusion, which maintains high levels of circulating ³H-TdR.     

Fate and effects of the trehalase inhibitor trehazolin in the migratory locust (Locusta migratoria)

Trehalose is the main haemolymph sugar in many insect species. To be utilized trehalose must be hydrolysed into its glucose units by trehalase (EC 3.2.1.28). Inhibitors of trehalase have attracted interest as possible pesticides and tools for studying the regulation of trehalose metabolism in insects. To make full use of these inhibitors requires knowledge of their fate and effects in vivo. To this end we have measured trehazolin in locusts using a method based on the specific inhibition of a trehalase preparation. After injection of 20 μg, trehazolin decreased in haemolymph with a half-life of 2.6 days and after 10 days almost 95% had disappeared. Trehazolin did not reach the intracellular water space of locust tissues, but appeared with full inhibitory potency in locust faeces, suggesting that it was not metabolized, but quantitatively eliminated via the gut. Haemolymph trehalose increased transiently upon trehazolin injection, it was maximal after 3 days, then decreased and reached control level after 10 days. Inhibition of flight muscle trehalase by trehazolin was prolonged and still conspicuous 21 days post injection, suggesting that trehazolin inhibits trehalase activity irreversibly in vivo and that recovery requires de novo enzyme synthesis.     

Water balance in Rhodnius prolixus during flight: Quantitative aspects of diuresis and its relation to changes in haemolymph and flight-muscle water

The amount of water voided by male Rhodnius prolixus which were flown to exhaustion varied from 0 to over 10% of the initial live weight. It accounted for nearly all of the body water lost during the flight period. Simultaneous measurements on the loss of haemolymph water and an estimate of the amount of faecal water in the excreta indicated that the source of the voided water was primarily the haemolymph. The total water content of the flight muscles changed very little in insects which flew to exhaustion. It is concluded that, despite the diuresis and loss of water, and the considerable reduction in haemolymph volume, dehydration of the flight muscles of male R. prolixus does not occur during these flight periods, and is not a factor contributing to ‘exhaustion’. The possibility that insufficient haemolymph is a factor limiting the duration of flight is discussed.     

Extraglandular synthesis of accessory reproductive gland components in male Melanoplus sanguinipes

The accessory reproductive glands (ARG) of the male migratory grasshopper, Melanoplus sanguinipes, are able to accumulate injected labelled ARG protein from the haemolymph. Accumulation is slight in the ARG of 2-day-old virgins, or 7-day-old allatectomized (CA^?) insects. The ARG of 7-day-old virgins, or 7-day-old CA^? insects treated with synthetic juvenile hormone, accumulate about 1.5 times more label than those of 2-day-old insects in a 24-hr period. The ARG of recently mated males accumulate almost four times more label than those of 2-day-old controls. Immunoprecipitation studies indicate that about one fifth of the labelled protein is accumulated unchanged.The fat body and haemolymph contain proteins which are precipitable by antiserum to whole ARG homogenate. The concentration of these proteins in the fat body increases after removal of the ARG, or after copulation. It is concluded that the fat body synthesizes certain proteins which are accumulated by the ARG. Both the synthesis and the accumulation of these proteins are regulated by the corpora allata.     

Hormonal regulation of trehalose metabolism in the blowfly, Phormia regina: interaction between hypertrehalosemic and hypotrehalosemic hormones

Hypertrehalosemia occurs two days after cardiacectomy of adult male Phormia regina with no attendant change in fat body glycogen. In spite of this, cardiacectomized flies caused to fly for 10 min show a lower rate of haemolymph trehalose turnover, and seem to have a decreased capability for synthesizing trehalose from haemolymph glucose. Phormia brain is shown to contain a hypotrehalosemic hormone whose release depends on the integrity of the stomatogastric nervous system. It is possible that the hypertrehalosemic condition in cardiacectomized flies is a result of the absence of this hormone from the blood.     

Parasitism enhances the induction of glucogenesis by the insect, Manduca sexta L

Metabolic alterations that accompany parasitism of invertebrate animals can play an important role in parasite development. Employing 13C NMR, this study examined pyruvate cycling from (2-(13)C)pyruvate in the lepidopteran insect Manduca sexta, and the effects of parasitism by the hymenopteran Cotesia congregata on the gluconeogenic formation of trehalose, the haemolymph or blood sugar of insects. Larvae were maintained on a semi-synthetic sucrose-free diet, or on the same diet with sucrose at 8.5 g/l. Pyruvate cycling was evident from the 13C enrichment in C3 of alanine, derived following carboxylation to oxaloacetate, and was similar in parasitized and normal insects regardless of diet. Trehalose was formed following de novo synthesis of glucose, and net synthesis was estimated from the 13C distribution in trehalose and alanine. The 13C-enrichment ratio [2trehalose C6/alanine C3] is an indicator of the level of gluconeogenesis relative to glycolysis, both enrichments were derived from (2-(13)C)pyruvate in the same manner. The ratio was greater than unity in all insects, regardless of diet, but was significantly greater in parasitized larvae, demonstrating an enhanced level of gluconeogenesis. This was confirmed by analysis of the 13C distribution in trehalose and glutamine derived from (3-(13)C)alanine. Despite enhanced de novo trehalose formation in parasitized insects, the haemolymph sugar level was similar to that of normal larvae. Because haemolymph trehalose regulates dietary carbohydrate intake, but not gluconeogenesis, the results suggest that accelerated induction of gluconeogenesis is an adaptive response to parasitism that provides increased carbohydrate for parasite growth and simultaneously maintains nutrient intake.     

The roles of juvenile hormone and 20-hydroxy-ecdysone during vitellogenesis in isolated abdomens of Drosophila melanogaster

Both juvenile hormone and 20-hydroxy-ecdysone seem to be involved in the regulation of vitellogenesis in Drosophila melanogaster. It is the purpose of this paper to begin to define the functions of these two hormones. Although vitellogenin synthesis does not occur at a high rate in 1-day-old female abdomens isolated from the head and thorax before 0.75 hr after eclosion, both ZR515 (a juvenile hormone analogue) and 20-hydroxy-ecdysone can cause in these preparations vitellogenin synthesis and secretion into the haemolymph. The synthesis and secretion into the haemolymph of all three vitellogenins which are detectable by electrophoresis in sodium dodecyl sulphate-containing gels of polyacrylamide is promoted by both hormones. That result excludes the hypothesis that these two hormones regulate the synthesis of different vitellogenins. A dose-response curve showed that an injection of 0.2 μl of a 10^?6 M 20-hydroxy-ecdysone solution was sufficient to promote vitellogenin synthesis and secretion in isolated abdomens. Ovaries from isolated female abdomens treated with juvenile hormone analogue showed nearly normal amounts of all three vitellogenins and morphologically normal advanced vitellogenic follicles, whereas ovaries from isolated abdomens treated with 20-hydroxy-ecdysone contained little vitellogenin and no vitellogenic follicles. We conclude that under the conditions used, juvenile hormone permits vitellogenin uptake into the oöcyte much more readily than does 20-hydroxy-ecdysone.     

Examining the relationship between hemolymph phenoloxidase and resistance to a DNA virus, Plodia interpunctella granulosis virus (PiGV)

We have a detailed understanding of invertebrate immune responses to bacteria and fungal pathogens, but we know less about how insects respond to virus challenge. Phenoloxidase (PO) functions as an important immune response against many parasites and pathogens and is routinely used as a measure of immune competance. We examine the role of haemolymph PO activity in Plodia interpuncetella's response to its natural granulosis virus (PiGV). Larvae were challenged with virus by both oral inoculation of occluded virus (the natural infection route) and direct intrahaemocoelic injection of budded virus. Haemolymph was collected at time points post-viral challenge using a novel method that allows the volume of haemolymph to be quanitified. The haemolmyph was collected without killing the larvae so that haemolymph samples from individuals that developed viral disease could be distinguished from samples collected from those that fought off infection. The level of haemolymph PO activity in resistant larvae did not differ from control larvae. Therefore we have no evidence that PO is involved in resistance to virus in the haemocoel whether larvae are challenged naturally by oral innoculation or directly by intraheamocoelic injection. Phenoloxidase may therefore not be a relevant metric of immunocompetence for viral infection.     

Vitellogenin titre in haemolymph of Locusta migratoria in normal adults,after ovariectomy,and in response to methoprene

Vitellogenin in the haemolymph of Locusta migratoria was assayed by rocket immunoelectrophoresis to elucidate aspects of its regulation. In many normal adult females, vitellogenin first appeared on days 5–9, rose quickly to peak levels, and declined before a second vitellogenic cycle; in others, it appeared later and built up more slowly. The timing of first appearance of vitellogenin, and proportions of early and late-developing individuals, differed markedly in groups from the same colony assayed in different years, suggesting effects of both genetic and environmental variation. Average peak levels of vitellogenin were 25–30 mg/ml. After ovariectomy, vitellogenin appeared near the normal time and increased for several weeks to about 300 mg/ml; haemolymph volume also increased greatly, so that the total haemolymph-vitellogenin pool reached about 300 mg/individual, or 100 times the normal amount. After ovariectomy, no cyclicity of vitellogenin accumulation was apparent. These results show that the ovary is not required for stimulation of vitellogenin synthesis, and suggest that normal cycling may depend on inhibition by the mature ovary. Females treated with ethoxyprecocene on day 1 of adult life to inactivate the corpora allata did not produce vitellogenin, but were induced to do so with the juvenile hormone analogue, methoprene. After injection of 150 μg of methoprene in mineral oil, there was one day lag, then vitellogenin increased in the haemolymph to the normal peak level and declined slowly to zero during 5 weeks; after a second injection of methoprene, vitellogenin re-appeared more rapidly, with less lag, reflecting accelerated secondary hormonal stimulation of vitellogenin synthesis in the fat body. Adult males showed no detectable haemolymph vitellogenin even after injection of large doses of methoprene.