Synthesis and release of proteins from cultured larval fat body of the southwestern corn borer,Diatraea grandiosella

The larval fat body of the southwestern corn borer, Diatraea grandiosella, was cultured in vitro to examine the relationship between proteins present in the fat body, those released into the medium, and those present in the haemolymph. While the incorporation of [³H]leucine into fat body proteins was high in last instar pre-diapausing and non-diapausing larvae, it fell in early diapausing larvae to about 11% of that found in prediapausing larvae. Incorporation of [³H]leucine into the diapause-associated protein of the fat body increased gradually in pre-diapausing larvae and reached a maximum in newly-diapaused larvae at a time when the incorporation of [³H]leucine into other proteins of the fat body had declined. The proteins released from the cultured fat body showed identical electrophoretic properties and close immunochemical relationships to most of those present in the haemolymph. Small amounts of the diapause-associated protein were released in vitro from the fat body of larvae of different ages in diapause. Lipophorin was also released in vitro from the fat body of non-diapausing and diapausing larvae, and shown to be immunochemically identical to the lipophorin present in the haemolymph.     

Protein release from the larval fat body of the southwestern corn borer, Diatraea grandiosella: An in vitro study

The release of protein from the perivisceral fat body of non-diapausing, pre-diapausing and diapausing larvae of the southwestern corn borer, Diatraea grandiosella, was examined in vitro. Time course studies showed a selective release of proteins into macromolecule-free Grace's medium. The rate of release of individual proteins differed. The release of some proteins was partially inhibited by the incorporation of potassium cyanide (10^?2 M) and ouabain (5 × 10^?3 M) into the medium. During a 5 min incubation a single major high molecular weight protein fraction was released at a high rate from the fat body of both non-diapausing and diapausing larvae. A low molecular weight protein (the diapause-associated protein) was also released readily from the fat body of diapausing larvae. Although most proteins released from the fat body in vitro appeared to be present in the haemolymph in vivo, one notable exception was the absence of the diapause-associated protein from the haemolymph. The method holds promise for facilitating further studies of protein release from insect fat body.     

Proteins of the fat body of non-diapausing and diapausing larvae of the southwestern corn borer, Diatraea grandiosella: Effect of juvenile hormone

The proteins of the fat body of non-diapausing, pre-diapausing, and newly-diapaused larvae of the southwestern corn borer, Diatraea grandiosella, were examined. Since a low titre of juvenile hormone (JH) is present in the haemolymph throughout the final instar of non-diapausing larvae, the hormone does not appear to stimulate the pre-metamorphic synthesis of proteins. In contrast, the high titre of JH in the haemolymph during the final instar of pre-diapausing larvae appears to stimulate the synthesis of selected proteins. For example, pre-diapausing larvae store in their fat body a low molecular weight protein which has been named the ‘diapause-associated protein’. When non-diapausing larvae were treated topically with C₁₇-JH or a JH mimic, from 50 to 70% entered a diapause-like state as fully grown larvae. These hormone-treated larvae accumulated the diapause-associated protein and a high molecular weight protein in their fat bodies. Both of these proteins were shown to be released from the fat body of newly-diapaused larvae in vitro, and may function in the haemolymph during diapause. The high molecular weight protein, isolated from the haemolymph, was shown to contain neutral and polar lipids, including biochromes. Its storage in the fat body and release into the haemolymph may be essential for the transport of lipids during diapause. The fat body proteins of newly-diapaused larvae of the southern cornstalk borer, Diatraea crambidiodes, were also examined electrophoretically. They were found to contain a similar protein pattern to that of D. grandiosella, including the presence of a diapause-associated protein.     

Characterization of a juvenile hormone binding lipophorin from the blowfly Lucilia cuprina

The larval haemolymph of the sheep blowfly Lucilia cuprina (Weidemann) contains a juvenile hormone binding protein with a K_d for racemic JH III of 33 ± 6 nM. The density of the binding sites is 212 ± 33 pmol/mg haemolymph protein. The binding protein is equally specific for JH III and methyl farnesoate. Some natural juvenoids were ranked for their ability to displace [³H]JH III with JH III > JH II > JH I > JH III > JH III diol > JHB₃ = no detectable displacement. These data, together with displacement studies for 14 synthetic juvenoids, indicate some characteristics of the JH binding cleft. The binding protein is a high density lipophorin (density = 1.15 g/ml) and has subunit molecular weights of 228 kDa (apolipophorin I) and 70 kDa (apolipophorin II). The N-terminal amino acid sequences of the subunits have no discernible homology to any previously sequenced protein. Lipophorin-specific immunocytochemical staining occurs in a subset of fat body cells.     

In vitro studies on hormone-stimulated lipid mobilization from fat body and interconversion of haemolymph lipoproteins of Locusta migratoria

Both adipokinetic hormone and octopamine have a stimulating effect on lipid release from locust fat body in vitro, when incubated in diluted haemolymph. The presence of adipokinetic hormone results in the formation of the flight-specific haemolymph lipoprotein A⁺ accepting the increased amount of lipids released into the incubation medium. In contrast, interconversions of lipoproteins do not occur when octopamine is added to the incubation medium, which is in line with the expectations: the lipid-mobilizing effect of octopamine is a limited and short-term effect. When fat body tissue is incubated with isolated haemolymph protein fractions, the lipid-mobilizing effect of adipokinetic hormone only occurs when the incubation medium contains both lipoprotein, A_y and protein fraction C, resulting in the formation of lipoprotein A⁺. In similar control incubations with the hormone omitted, some lipoprotein A⁺ is also formed (concomitant with a slight amount of lipid released), though significantly less than in incubations with hormone. Besides a stimulating function on lipolytic processes in the fat body, adipokinetic hormone is suggested to influence haemolymph lipoprotein rearrangement. A possible counteracting function of another factor in the haemolymph is discussed.     

A study of uptake of radiolabeled host proteins and protein synthesis during development of eggs of the endoparasitoid,Microplitis croceipes (Cresson) (Braconidae)

The uptake of radiolabeled haemolymph and fat body proteins from fourth instar larvae of Heliothis zea (Boddie) by eggs of Microplitis croceipes (Cresson) was examined by SDS-polyacrylamide gel electrophoresis and by autoradiography. None of the ¹²⁵I-labeled haemolymph proteins was detected in eggs exposed to the proteins in vivo. Although several of the proteins were observed in eggs incubated with the labeled proteins in vitro, none of these proteins was degraded or resynthesized into new structural proteins during development of the embryo. Similarly, no significant uptake of labeled fat body proteins by the eggs could be detected in vitro. On the other hand, protein synthesis measured by incorporation of [³⁵S]methionine occurred throughout egg development. Proteins were synthesized at least 1 hr after the egg was deposited into the host. The protein patterns of eggs on one-dimensional SDS gels were complex and ranged in size from less than 18,500 to more than 330,000 mol. wt. The protein band patterns of the newly synthesized proteins showed some qualitative differences at 1–8, 16–32 and 40 hr after egg deposition. We conclude that eggs do not absorb or utilize the host apoproteins (or degradation products) but instead synthesize proteins de novo from free amino acids in the host haemolymph.     

Lipid composition of the fat body and haemolymph and its relation to lipid release in Oncopeltus fasciatus

Lipid composition of the fat body and haemolymph of male milkweed bug, Oncopeltus fasciatus, was determined. Triglycerides were the predominant lipids of the fat body while diglycerides accounted for the major lipid in the haemolymph. Sterols, sterol esters, and non-esterified fatty acids were present in both fat body and haemolymph besides triglycerides and diglycerides. Only traces of monoglycerides were detected.Gas chromatographic analysis of the fatty acids revealed a difference in the fatty acid composition between fat body and haemolymph glycerides and sterol esters. Oleate and linoleate were the predominant unsaturated fatty acids in both fat body and haemolymph lipids and in the milkweed seeds as well.When fat body was labelled in vivo and in vitro with ¹⁴C-palmitate, the fatty acid was incorporated largely into the triglycerides. When the prelabelled fat body was incubated with a medium containing haemolymph the fat body released lipids mainly as diglycerides. Some radioactivity was observed in the triglycerides and non-esterified fatty acids also.Electrophoretic analysis of the incubation medium containing the haemolymph revealed that the released lipids were bound to three haemolymph lipoprotein bands. Lipid mobilization, release, and transport in Oncopeltus are discussed in relation to studies on other insects.     

Protein metabolism by the salivary glands and other organs of the larva of the blowfly, Calliphora erythrocephala

Protein metabolism in salivary glands, gut, haemolymph, and fat body during the last larval instar of the blowfly, Calliphora erythrocephala, has been investigated. In salivary glands, protein release, protein synthesis, amylase, and pepsin-like protease activity were maximal in 6 day larvae, this being at a time when the larvae had finished feeding. All these functions declined in glands from the rounded-off white puparial stage (R.O.) while acid phosphatase activity rose throughout the third instar to a maximum at the R.O. stage, Glands from 6 and 7 day larvae released protein which on disk gel electrophoresis separated into four minor bands and two major bands one of the latter possessing protease activity.In the gut, pepsin-like protease activity was maximal in 4 day larvae after which it fell rapidly thus following the feeding pattern of the larva in contrast to that in the salivary glands which did not.In vitro experiments showed that protease was released from 6 day glands through the basal membrane of the cells and not via the duct. A pepsin-like protease was also found in the haemolymph and fat body, the activity in the fat body rising rapidly during the latter part of the third instar, a rise which is attributed to the fat body sequestering protease from the haemolymph. Acid phosphatase activity in the fat body was maximal in 5 day larvae indicating that this enzyme was synthesized early in the third instar. It was shown that fat body sequestered ¹⁴C-labelled protein synthesized by and released from the salivary glands, most of the ¹⁴C activity being associated with a 600 g precipitable, acid-phosphatase rich fraction.It is proposed that in late third instar larvae the salivary glands function as glands of internal secretion, releasing protease into the haemolymph, which is then sequestered by the fat body (and perhaps other tissues) and is subsequently used in the lysis of the tissues at the time of metamorphosis.     

Juvenile hormone-specific esterases in the haemolymph of the tobacco hornworm, Manduca sexta

A new sensitive method for determining juvenile hormone (JH) hydrolysis has been developed which measures the release of tritiated methanol from JH labelled in the methyl ester group. Using this assay we investigated the interaction of JH with haemolymph esterases and haemolymph JH-binding protein. Haemolymph from fifth instar larvae of Manduca sexta contains two families of esterases which can be distinguished by their reactivity with diisopropylphosphorofluoridate (DFP). One group consists of general esterases which are capable of hydrolysing free JH but not JH complexed to the binding protein and are completely inhibited by low concentrations of DFP (10⁻⁴ M). The other group (JH-specific esterases), relatively DFP resistant, has little detectable general esterase activity but can hydrolyse JH bound to the binding protein as well as free JH. The major JH-esterase has a sedimentation coefficient of 4·98 S and a diffusion coefficient of 6·4 × 10⁻⁷ cm² sec⁻¹. The molecular weight calculated from these values is 6·7 × 10⁴. The general esterases are present throughout the larval stage, but the JH-specific esterases are barely detectable until the fourth day of the fifth instar when they suddenly appear at a high concentration. Since the general esterases cannot hydrolyse bound JH, one function of the binding protein is to protect JH during transport in the early instars, thus confirming that the binding protein is a true carrier of JH. In the late fifth instar prior to metamorphosis, however, JH-specific esterases appear in the haemolymph resulting in the hydrolysis of JH complexed to the carrier protein. Thus, by lowering JH titre, the JH-esterases play an important rôle in development in M. sexta.     

Synthesis and release of hydrocarbons by the oenocytes of the desert locust, Schistocerca gregaria

When incubated in vitro, the oenocytes in the peripheral fat body of the desert locust incorporate Na-¹⁴C-acetate into hydrocarbons (paraffins). The presence of haemolymph in the incubation medium greatly stimulates the release of the ¹⁴C-hydrocarbons into the medium. The labelled hydrocarbons appear to be rapidly released by the cells into the incubation medium as a function of time provided that haemolymph is present. The fact that the oenocytes not only synthesize ¹⁴C-hydrocarbons but also release them into the medium supports the hypothesis that the oenocytes of the desert locust synthesize cuticle lipids.     

Larval esterases of the southwestern corn borer, Diatraea grandiosella: Temporal changes and specificity

Disc electrophoresis was used to examine and characterize the esterases present in the fat body, haemolymph, and midgut of last stage larvae of the southwestern corn borer, Diatraea grandiosella. Significant temporal changes were observed in the pattern of the 4 major esterases of the fat body and 3 major esterases of the haemolymph. These changing profiles presumably relate, in part, to a requirement for the degradation of juvenile hormone (JH) in preparation for metamorphosis.The binding capacity of esterases present in the larval midgut towards JH I and three JH mimics (alkyl-3,7,11-trimethyl-2,4-dodecadienoates) was also examined. The midgut of last stage nondiapausing larvae was shown to contain a carboxylesterase which bound all three JH mimics. Another esterase which bound JH I, but not the mimics, was also present. An esterase with a similar electrophoretic mobility was detected in the haemolymph and integument. Since the JH I binding esterase did not bind the JH mimics, the mimics do not appear to synergize JH by inhibiting its ester hydrolysis.     

Effects of farnesyl methyl ether on the haemolymph and ovarian proteins of the tent caterpillar, Malacosoma americanum

The mode of antigonadotropic action of farnesyl methyl ether (FME) on Malacosoma americanum was investigated by studying the haemolymph and ovarial proteins during vitellogenesis. Low doses of FME which permitted apparently normal adult development but inhibited ovarian development were used.As indicated by the incorporation of ¹⁴C-glycine, FME treatment had no effect on the protein biosynthetic activity by the fat body. However, it resulted in significant accumulation of several haemolymph proteins apparently caused by their reduced uptake by the ovarioles.Radioassay of individual proteins revealed that all the haemolymph proteins had incorporated ¹⁴C-glycine. However, proteins G and H, and to some extent protein B of the treated females, showed significantly higher incorporation of the labelled glycine. It is concluded that the antigonadotropic action of the JH mimic was due to reduced incorporation of various sex-specific and non-specific haemolymph proteins into the ovarioles.     

Structure,haemolymph titre,and regulatory effects of juvenile homone during ovarian maturation in Leucophaea maderae

Juvenile hormone (JH) synthesized and secreted in vitro by the corpora allata of mated adult Leucophaea maderae females was determined to be JH III (methyl-10,11-epoxy-3,7,11-trimethyl-2,6-dodecadienoate).The haemolymph titre of JH was determined during maturation of the terminal oöcytes in the first reproductive cycle of L. maderae. In virgin females, JH is not detectable in the haemolymph during the first eight days following adult emergence; however, by 10 days after emergence, trace quantities of JH are apparent. Mating stimuli induce a dramatic increase in the concentration of haemolymph JH, with a peak occurring approximately 12 days after mating; thereafter, the JH concentration declines until it has reached an undetectable level 19 days after mating, at the time of chorion deposition.During ovarian maturation, changes in the rates of synthesis of vitellogenin by the fat body and DNA by the ovary correlate closely with the haemolymph titre of JH. However, no such correlation exists between the JH titre and the extensive ovarian protein synthesis that occurs in L. maderae coincident with chorion formation.The effects of JH I and JH III on both vitellogenin synthesis and ovarain DNA synthesis are statistically similar.     

Diapause phenomena in non-diapausing last instar larvae,pupae, and pharate adults of the Colorado beetle

From the first day of the last (fourth) larval instar no trace of juvenile hormone (JH) can be detected in the haemolymph by Galleria bioassay. Three specific diapause proteins, which are also found in diapausing adults, appear in the haemolymph. These proteins disappear towards the end of the pupal stage. Study of the ultrastructure of the fat body revealed the formation from lysosomes of proteinaceous bodies which are also characteristic for adult diapause. The behaviour of last instar larvae and pupae resembles that of prediapausing and diapausing adults respectively. Injection of synthetic JH delays the appearance of the diapause proteins in the haemolymph and of proteinaceous bodies in the fat body for 2 to 3 days. The absence of JH seems to trigger off these diapause phenomena.     

Inhibition of vitellogenin synthesis in Apis mellifera workers by a juvenile hormone analogue,pyriproxyfen

Insect juvenile hormone (JH) has been related to modulation of vitellogenin (Vg) synthesis, a protein produced by fat body cells, secreted in haemolymph and sequestered by developing oocytes. A stimulatory JH action has been described for the majority of species studied thus far. In some insects, however, Vg synthesis has been inhibited or unaffected by JH. The aim of this study was to re-examine the action of JH on Vg synthesis in Apis mellifera workers, since contrasting effects of this hormone were described. Newly emerged worker bees were treated with different doses of pyriproxyfen (PPN), a potent JH analogue. Vg and total protein were quantified in haemolymph samples of newly emerged up to 6-day-old worker bees. Protein synthesis activity of fat body cultured in vitro and ultrastructure of fat body cells were also examined. High doses (1.25, 2.5, 5 and 10 &mgr;g) of PPN inhibited the onset and accumulation of Vg in the haemolymph of young worker bees in a dose-dependent fashion. This inhibition was not a result of fat body cell degeneration or death, as illustrated by fat body cells ultrastructure analysis, but by impairing Vg synthesis, as demonstrated by in vitro culture of fat body cells. Low doses (0.001, 0.01 and 0.1 &mgr;g) neither affected the normal synthesis and secretion of Vg into the haemolymph nor caused an early onset of Vg in treated bees (which could be interpreted as a JH-activating effect), as shown by Vg quantification at 24-h intervals. The results suggest that a low JH titre in honey bee workers permits the onset and accumulation of Vg in haemolymph, whereas high JH levels turn off Vg synthesis.     

Indirect stimulation of the prothoracic glands of Manduca sexta by juvenile hormone: Evidence for a fat body stimulatory factor

Juvenile hormone or ZR512 applied topically to day-5, fifth-instar, neck-ligated Manduca sexta larvae results in the acceleration of pharate pupal development when compared to neck-ligated, untreated larvae. This occurs as a result of an increase in the haemolymph ecdysteroid titre. Juvenile hormone, therefore, appears to stimulate ecdysone synthesis by the prothoracic glands of these animals, but not directly as shown by in vitro analysis. When ecdysone synthesis by the prothoracic glands of these ZR512- or juvenile hormone-treated animals was analyzed in vitro, increased gland activity was demonstrated but this did not occur until at least 2 days after treatment. This time lag in response supports the concept of an indirect stimulation of the prothoracic glands. Incubation of fat body from these ZR512- or juvenile hormone-treated, neck-ligated, larvae in 19AB culture medium revealed that the resulting pre-conditioned medium was capable of stimulating prothoracic glands in vitro up to 9-fold in a dose-dependent manner. A developmental profile was generated of the amount of this stimulatory factor released into the medium by fat body of untreated larvae representing each day of the last instar, and revealed that maximal release occurred with fat body from day-9 animals. The alterations in the amount of factor release by the fat body during larval-pupal development roughly correlated with the juvenile hormone titre and suggested a possible role for this factor in the regulation of the ecdysteroid titre. In contrast to the prothoracicotropic hormone, the fat body stimulatory factor is heat labile and has an apparent mol. wt in the 30,000 Dalton range. These data, particularly the kinetics of prothoracic gland stimulation, suggest that the factor may be a protein transporting a substrate for ecdysone biosynthesis to the prothoracic glands.     

Yolk polypeptide synthesis in the fat body of Sarcophaga bullata: Localization,hormonal induction and cell-free translation

The fat body of adult Sarcophaga bullata consists of different cell-types. The yolk polypeptides (YPs) are localized in secretory granules in the cytoplasm of female trophocyte fat body cells while the oenocytes and larval fat body cells are immunonegative. An antiserum against the larval serum protein 1 of Drosophila crossreacts on immunoblotting with several polypeptide bands in the haemolymph with mol. wt ∼80 kD. This antiserum specifically reacts with some storage granules of the persisting larval fat body cells and not with the other fat body cell types. The trophocyte fat body cells of male Sarcophaga treated with 20-OH-ecdysone, display a similar granular type of immunoreaction with an anti-YP antiserum as in vitellogenic females. Moreover, 20-OH-ecdysone induced in the fat body of males, in contrast to methoprene, synthesis of mRNA coding for YPs to a level as high as that in vitellogenic females, as shown in the reticulocyte lysate cell-free system.     

Synthesis and release of lipophorin in larvae of the southwestern corn borer,Diatraea grandiosella: An in vitro study

The source of the lipophorin present in the larval haemolymph of the southwestern corn borer, Diatraea grandiosella, was examined in vitro. Although lipophorin was shown to be one of several proteins released from cultured fat body and midgut, only fat body was shown to synthesize lipophorin. Fat body, incubated in a medium containing [³H]leucine, was shown to release radiolabelled lipophorin using immunoprecipitation. Similar studies using midguts incubated in a medium containing [³H]leucine did not reveal any synthesis of lipophorin. Lipophorin was isolated by density-gradient ultracentrifugation from media in which the fat bodies of about 600 diapausing larvae had been incubated for 4 hr. The isolated lipophorin had a peak density of 1.11 g/ml, and contained various lipids including diacylglycerol, triacylglycerol, sterol, hydrocarbon, free fatty acid, phosphatidyl choline, phosphatidyl ethanolamine and sphingomyelin.     

Incorporation of palmitic acid-1-14C into lipids of pharate adult tissues of Bombyx mori

Incorporation of palmitic acid-1-¹⁴C into pharate adult tissues and their lipid components of Bombyx mori was investigated. Rapid incorporation of radioactivity took place predominantly in fat body and haemolymph lipids, and partially in ovarian lipids immediately after the injection at the middle stage of pharate adult development. The major parts of the radioactivities in fat body, haemolymph and ovary were distributed in triglycerides and phospholipids, diglycerides, and triglycerides, respectively. The patterns of time course of incorporation of radioactivity into lipid components of pharate adult tissues suggest that the major form of lipid released from fat body may be diglycerides and the diglycerides in haemolymph are probably the main source of ovarian triglycerides.     

Development of accessory reproductive glands and its control by the corpus allatum in adult male Melanoplus sanguinipes

Changes in the protein content of and the rate at which labelled protein appears in the accessory reproductive glands (ARG), fat body, and haemolymph were studied in normal and allatectomized (CA^?) males of the migratory grasshopper, Melanoplus sanguinipes. In addition, the effects of treatment of CA^? insects with synthetic juvenile hormone (SJH), copulation, and removal of the ARG were examined.In normal males the protein content of the ARG increases linearly during the first 14 days after emergence. Incorporation of label by the ARG is maximal at day 7 and then decreases until, at day 14, it is the same as at day 1. The protein content of the fat body and haemolymph increases up to day 10 then declines, whereas changes in the uptake of label by the fat body and haemolymph parallel those of the ARG.Removal of the corpora allata (CA) prevents the normal increase in protein content of the ARG, but the protein content of the fat body and haemolymph increases steadily throughout the 14 days. Incorporation of label into the ARG, fat body, and haemolymph remained low throughout the experiment. Treatment of CA^? insects with SJH, or copulation, stimulates the uptake of label by the ARG, fat body, and haemolymph and also results in an increase in their protein content.Removal of the ARG leads to an increase in the protein content of the fat body and haemolymph. Uptake of label by the fat body remains low after the operation. Although the rate at which labelled protein appears in the haemolymph is high initially, it declines steadily to day 14.We conclude that the CA regulate ARG development. It is suggested that the fat body, under CA control, synthesizes proteins which are incorporated into secretions of the ARG. Further, it is proposed that the primary effect of copulation is activation of the CA.