Isolation and characterization of a hemocyte aggregation inhibitor from hemolymph of Manduca sexta larvae

A protein that inhibits hemocyte aggregation has been isolated from hemolymph of Manduca sexta larvae and named hemocyte aggregation inhibitor protein (HAIP). HAIP has a M_r = 50,000, pI = 8.5, and contains 7% carbohydrate. It is present at 230 ± 20 μg/ml in hemolymph of day 3 fifth instar larvae. Antibodies to HAIP do not cross-react with M. sexta hemolin, which is similar in size and charge and also inhibits hemocyte aggregation. HAIP and hemolin have some similarity in amino acid composition and NH₂-terminal sequence, but are different in overall secondary structure, as determined by CD spectroscopy. The concentration of HAIP in hemolymph is not affected by injection of larvae with bacteria. A protein of approximately 50,000 daltons that reacts with antibody to M. sexta HAIP is present in hemolymph of Bombyx mori, Heliothis zea, and Galleria mellonella. Although the function of HAIP in vivo is not yet clear, it may have a role in modulating adhesion of hemocytes during defensive responses. © 1994 Wiley-Liss, Inc.     

Isolation and characterization of lipophorin from Drosophila melanogaster larvae

The hemolymph lipoprotein lipophorin has been isolated from third-instar Drosophila melanogaster larvae by a technique that involves homogenization of whole larvae in a medium containing protease inhibitors and purification of the lipoprotein by density gradient centrifugation. Drosophila lipophorin has a density of 1.16 g/ml and is composed of 62.5% protein, 23.1% phospholipid, 7.4% diacylglycerol, 5.4% triacylglycerol, 0.9% hydrocarbon, and 0.7% sterol. As is the case with other insect lipophorins, Drosophila lipophorin contains two apolipoproteins, apolipophorin-I (M_r ≈ 275,000) and apolipophorin-II (M_r ≈ 76,000). Drosophila apolipophorin-I does not crossreact with antibodies prepared against apolipophorin-I from Manduca sexta.     

Chemical and immunological properties of lipophorins from seven insect orders

The major insect hemolymph lipoprotein, lipophorin, was isolated from adults of eight insect species representing seven insect orders. Sodium dodecyl sulfate polyacrylamide gel electrophoresis was used to compare their respective apoprotein components. In all species examined lipophorin was composed of at least two apoproteins, apolipophorin I (M_r ～ 250,000) and apolipophorin II (M_r ～ 78,000), and two species had a third apoprotein, apolipophorin III (M_r ～ 17,000). The density of each isolated lipophorin was determined from the refractive index of KBr following density gradient centrifugation. Immunoblotting with anti-larval Manduca sexta apolipophorin I and II of the apoproteins separated by SDS-PACE indicated cross reactivity between anti-M sexta apoLp-ll and apoLp-ll in all species tested. Anti-M sexta apoLp-l exhibited no cross reactivity for any species tested. Fluorescent lectin staining of the apoproteins separated on SDS-PAGE gels revealed the presence of covalently bound carbohydrate residues.     

Biochemical characterization,developmental expression,and induction of the immune protein scolexin from Manduca sexta

The immune protein, scolexin, a bacteria-induced, larva-specific protein from Manduca sexta, was shown to exist in the hemolymph in two isoelectric forms designated herein as scolexin-1 and scolexin-2 (native M_r ～ 72 kd). These two charge isomers appeared to share the same amino acid composition. Scolexin is composed of two subunits (peptide M_r ～ 36 kd) that possess the same N-terminus. Scolexin-2 was subjected to glycosyl composition analysis, revealing the presence of galactose, glucose, mannose, xylose, and sialic acid residues. Hybridization of epidermal RNA with oligonucleotides deduced from the scolexin N-terminal sequence showed a continuous decline in mRNA following day 0 of the 5th larval instar. By employing in vitro protein labelling, it was found that organ cultures of the epidermis from immune larvae showed a greater ability over that of naive epidermal cultures to synthesize scolexin; these data reflected the inducible response seen in the hemolymph, and confirm other data indicating that the epidermis is an important site of scolexin biosynthesis. © 1995 Wiley-Liss, Inc.     

Iron binding proteins and their roles in the tobacco hornworm,Manduca sexta (L.)

Summary Manduca sexta larvae accumulate large amounts of iron during their larval feeding period. When⁵⁹Fe was fed to 5th instar larvae, it was evenly distributed among the hemolymph, gut and carcass until the cessation of feeding. By pupation 95% of the labelled iron was found in the fat body. In the adult a significant portion of this iron was found in flight muscle.Studies of the hemolymph disclosed two ironcontaining proteins. The first was composed of a single polypeptide chain of 80 kD, containing one atom of iron. This protein bound ionic iron in vitro and was able to transfer this iron to ferritin when incubated with fat body in vitro. Therefore, it appeared to serve a transport function. The second protein had a molecular weight of 490 kD with subunits of 24 and 26 kD and contained 220 g of iron/mg protein. Its chemical and ultrastructural characteristics were those of ferritin. These studies demonstrate the presence of both a transport protein and a unique circulating ferritin inManduca sexta, the latter serving a storage function during development and possibly also a transport function.     

Studies on binding and uptake of vitellogenin by follicles of the tobacco hornworm,Manduca sexta

An in vitro system for the uptake of ¹²⁵l-vitellogenin (VG) or vitellin into isolated follicles of the tobacco hornworm, Manduca sexta, is described. After incubation with ¹²⁵l-VG, follicles were disrupted and the internal yolk contents separated from the follicle membranes. The results showed that ¹²⁵l-VG was associated principally with the membranes (92%) after incubation at 4°C. However, at 27°C, ¹²⁵l-VG was mainly in the yolk (92%). Furthermore, trypsin treatment removed approximately 70% of VG bound to the follicles at 4°C. Labeled VG was shown to bind to sonicated follicle membranes with high specificity and affinity (K_D ? 1.3 × 10^?8 M). This binding was sensitive to pH and calcium concentration. The total binding sites were estimated at 4 × 10¹⁴ sites/g of membrane protein. Competition studies showed that binding of ¹²⁵l-VG to follicle membranes was blocked by excess unlabeled vitellin and deglycosylated vitellogenin but not by lipophorin (the major hemolymph lipoprotein), microvitellogenin, a female-specific protein (M_r ～ 31,000) found in both hemolymph and eggs, and the smaller vitellogenin subunit, apovitellogenin-II (M_r ～ 45,000). These results suggest that selective uptake of M. sexta VG from the hemolymph involves binding to specific receptors located on the follicle membranes.     

Changes in lipid and carbohydrate metabolism during starvation in adult Manduca sexta

Summary Adult Manduca sexta feed very irregularly in the laboratory, and many adult males never feed. Feeding adults live longer and feeding females lay many more eggs; however, in both feeding (sugar water) and starving adults a decrease of metabolic reserves is observed. Carbohydrates disappear from hemolymph and from fat body. Fat body lipid also decreases, while hemolymph lipid concentration increases strongly in starving adults. The activity of fat body glycogen phosphorylase increases strongly in starving adult M. sexta. The activity of glycogen phosphorylase is correlated inversely with hemolymph sugar concentration. Injected trehalose inactivates glycogen phosphorylase within 2 h, and lowers the hemolymph lipid level within 6 h. In starving adult M. sexta, neither the activation of glycogen phosphorylase nor the increase of hemolymph lipid concentration depends on adipokinetic hormone, since cardiacectomy does not prevent the activation of glycogen phosphorylase nor the increase of hemolymph lipid level.Abbreviations AKH adipokinetic hormone - EDTA ethylenediamine tetraacetate Present address: Department of Biochemistry and Center for Insect Science, The University of Arizona, Tucson, AZ 85721, USA     

Polypeptide composition and biosynthesis of the yolk proteins in the firebrat,Thermobia domestica (insecta,thysanura)

Ion-exchange chromatography of crude ovarian extracts of the primitive insect Thermobia domestica allowed the separation, in native conditions, of major and minor vitellins of molecular weights of 300,000 and 430,000, respectively. Their polypeptide subunits were determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and immunotransfer using an antiserum prepared against major vitellin. This protein was resolved into large (M_r 166,000–212,000) and small (around M_r 50,000) polypeptides. Minor vitellin, on the other hand, exclusively contained small polypeptides that are immunologically different from those of the major vitellin. Vitellogenin polypeptides from the hemolymph of mature females exhibited electrophoretic mobilities and immunological properties similar to vitellin polypeptides. Pulse-chase experiments showed that the female fat body synthesizes radioactive and immunoprecipitable proteins, whose polypeptide pattern is close to that of the major vitellogenin. However, part of the primary vitellogenic polypeptides, at M_r 210,000 and 212,000, is rapidly processed to M_r 176,000 and 182,000 subunits. These two polypeptides, as well as the precursors, enter into the composition of the major hemolymph vitellogenin. Finally, processing of the still uncleaved 210,000–212,000 polypeptides takes place in the ovary, which performs the same step of vitellogenin maturation as the fat body.     

Properties,synthesis, and accumulation of storage proteins in Pieris rapae L.

Two kinds of storage proteins (SP-1, SP-2) were confirmed in hemolymph and fat body of Pieris rapae during metamorphosis. Both proteins were present in high concentrations in the hemolymph during the last larval instar. Hemolymph concentrations of SP-1 and SP-2 dropped after pupation as the proteins were being deposited in fat bodies. SP-2 is present in a larger amount than SP-1. Detailed studies on storage proteins determined their properties, mode of synthesis, and accumulation in the fat body. SP-1 has a molecular weight of 500,000 and consists of one type of subunit (M_r 77,000), while SP-2 has a molecular weight of 460,000 and is composed of two types of subunits (M_r 80,000 and 69,000). The pl values of SP-1 and SP-2 were determined to be 6.97 and 7.06, respectively. Fat body cells from 1-day-old fifth instar larvae synthesized storage proteins in large amounts, whereas those from late prepupae exhibited high protein sequestration. Proteins taken up in fat body accumulated in dense granules during the pupal stage but sharply decreased at the adult stage. Morphological changes in the fat body tissues were observed during the larval-pupal transformation; the nuclei of fat body cells became irregularly shaped, and the boundaries between cells seemed to be obscure. Synthesis, storage, or degradation of storage proteins in fat body during development is closely associated with morphological changes in the tissues.     

Isolation and characterization of a high molecular weight JH-III transport protein in the hemolymph of locusta migratoria

The juvenile hormone binding protein in Locusta migratoria is a very high density lipoprotein of M_r ～ 566,000. It contains 15% lipid and is composed of six seemingly identical subunits of M_r ～ 77,000. It is a minor protein, constituting 1–2% of the total hemolymph proteins. Its concentration fluctuates with total protein content and follows a cyclic pattern related to the molting cycles. The binding protein has a high affinity for (10R)-juvenile hormone III. The dissociation constant for the hormone is 3.7 ～ 0.6 nM, and one binding molecule contains six hormone-specific binding sites. The concentration of binding sites in the hemolymph is therefore very high, reaching a value of 26 μM in the last larval instar and 11 μM in the adult male.     

Metabolism of juvenile hormone in cultures of ovaries and fat body in the cockroachperiplaneta Americana

Summary The time course of juvenile hormone (JH) metabolism is examined in cultures ofPeriplaneta americana fat body and ovaries in medium containingManduca sexta carrier protein or cockroach hemolymph. In the absence ofM. sexta carrier protein or cockroach hemolymph, both tissues extensively catabolize exogenous [³H]JH in the medium. Addition of the carrier protein or hemolymph to the culture system prevents the hydrolysis of the hormone in the medium. Within the tissues JH is degraded whether or not carrier protein or hemolymph is present which suggests that the protective role of these molecules is exclusively extracellular. Incubation of [³H]JH with medium preconditioned with tissue results in destruction of the hormone. This suggests that the fat body secretes esterases into the medium. In contrast, the ovarioles hydrolyze the hormone by means of cell-associated enzyme. The relationship of these phenomena to insect development is discussed. This work supported by NSF Grant PCM 76-02229 and University of Kansas Biomedical Sciences Grant RR-07037.     

Molecular characteristics of lipophorin,the juvenile hormone-binding protein in the hemolymph of the Colorado potato beetle

Lipophorin, the protein that specifically binds juvenile hormone in the hemolymph of the Colorado potato beetle, Leptinotarsa decemlineata, is a high-density lipoprotein of M_r ～ 574,000. Lipophorin contains 43% lipid and is composed of two apoproteins: apolipophorin I (M_r ～ 251,000) and apolipophorin II (M_r ～ 78,000). Both apoproteins contain mannose residues. Carotenoids make up a substantial part of the lipid fraction. Lipophorin constitutes about 25% of the total hemolymph proteins. Its concentration in the hemolymph (26 μM in 4-day-old long-day and 40 μM in 4-day-old short-day beetles) changes with different physiological conditions concomitant with changes in total protein content. Lipophorin specifically binds 10R-juvenile hormone III with high affinity. The dissociation constant for 10R-juvenile hormone III is 12 ± 2 nM. One lipophorin molecule contains one specific juvenile hormone-binding site. The concentration of binding sites therefore equals that of lipophorin in hemolymph.     

A high molecular weight diapause-associated protein from the stem-borer Busseola fusca: Purification and properties

The hemolymph of diapausing larvae of the stem borer, Busseola fusca Fuller (Lepidoptera: Noctuidae), contains an electrophoretically distinct protein band on nondenaturing polyacrylamide gels. The protein, called the Busseola diapause protein (BDP), was purified by a combination of density gradient ultracentrifugation, gel permeation, and affinity chromatography. It is a high molecular weight protein (M_r ～5 × 10⁵; pl = 6.1) that is composed of two subunits, I (M_r ～88,000 ± 4,000) and II (M_r ～79,000 ± 1,000), which are not linked by disulfide bridges. The protein contains both lipids (2%) as well as covalently bound carbohydrates (1%). The inability to stain the fluorescein isothiocyanate-conjugated concanavalin A (FITC-Con A) suggests that the carbohydrate moiety of BDP is not of the high mannose type. Amino acid analysis showed a high tyrosine plus phenylalanine content (16 mol%). Labeling studies using [³⁵S]-methionine showed that de novo synthesis by the fat body tissue occurs only in diapausing larval insects. It is proposed that the BDP could serve a storage function by providing the amino acids needed for the synthesis of pupal and adult structures.     

Carbohydrate metabolism during the pupal molt of the tobacco hornworm,Manduca sexta

During the pupal molt of the tobacco hornworm, Manduca sexta, the percentage of active fat body glycogen phosphorylase increased from 5–10 to 20%, but only for a period of 5 h prior to the molt. From the time of the appearance of two sclerotized dorsal bars to the time of the molt, the concentration of total hemolymph carbohydrates doubled to 100 mM trehalose. Initially, the glucose level was high (16 mM) when compared with feeding larvae (approximately 1 mM) but decreased to zero just prior to the molt. The amount of cuticular chitosan decreased from approximately 100 mg to 10 mg at pupation; the exuvia contained approximately 7 mg. While the levels of total lipids in hemolymph were not affected, the lipid content of the fat body decreased significantly prior to the molt but increased sharply thereafter. Fat body glycogen phosphorylase in pharate pupae and pupae of M. sexta was substantially activated by the Manduca adipokinetic peptide hormone, which in pharate pupae, produced the same response at 2 and 20 pmol per insect as in ligated larval abdomens. In pupae the response was clearly reduced. Using chilling to stimulate glycogen phosphorylase, it was found that the enzyme in pharate pupae and pupae responded both in vivo and in vitro as in ligated abdomens of larvae. Thus, a transition to the adult response seems to occur during the pupal and pharate adult development. © 1995 Wiley-Liss, Inc.     

Major hemolymph proteins from larvae of the black swallowtail butterfly,Papilio polyxenes

Three major hemolymph proteins of Papilio polyxenes larvae were isolated and characterized. Density gradient ultracentrifugation of hemolymph resulted in flotation of the major lipoprotein, lipophorin. P. polyxenes larval lipophorin is composed of two apoproteins, apolipophorin-I and apolipophorin-II, plus a mixture of lipids, to give a density of 1.13 g/ml. Immunoblotting experiments using antisera directed against Manduca sexta apolipophorin-I and apolipophorin-II, respectively, revealed cross-reactivity of apoLp-I with Manduca sexta apoLp-I, and apoLp-II with M. sexta apoLp-II. Gel permeation chromatography of the subnatant obtained following density gradient ultracentrifugation revealed the presence of a major protein peak which was shown to contain three major serum proteins, two of which were isolated and characterized. One of these proteins was purified by lectin affinity chromatography. Both proteins have native molecular weights in the range of 450,000 and appear to be hexamers of a single subunit type. Major serum protein-1 is nonglycosylated and has a subunit molecular weight of 75,000. Major serum protein-2 is glycosylated and has a subunit molecular weight of 74,000. Amino acid analysis of this protein revealed a tyrosine plus phenylalanine content of 20 mole percent, characteristic of the arylphorin class of insect storage proteins. Using antibodies against M. sexta larval hemolymph proteins, both the P. polyxenes major serum proteins were shown to be immunologically related to serum proteins of other lepidopteran species.     

Site of synthesis and phylogenetic distribution of a hemolymph trophic factor of the tobacco hornworm,Manduca sexta

Summary Identification of fith instar larvalManduca sexta fat body and epidermis as sites of synthesis of a hemolymph protein (hemolymph trophic factor or HTF) was achieved using in vitro³H-leucine incorporation into protein and subsequent immunoprecipitation of tissue homogenates. Fat body is the primary site of HTF synthesis with a maximal rate on Day 1; epidermis is a secondary site with peak synthesis on Day 0. In vitro radiolabelling followed by TCA precipitation of general protein of fat body and epidermal homogenates suggest that fat body actively elaborates protein on Days 0–5 with peak rates on Days 1 and 4, while epidermis is active on Days 0–5 with a peak rate on Day 3. Based on Anti-HTF ELISA estimates, HTF [500 to 1000 μg/ml] was found in the hemolymph of representatives of the insect orders Blattodea, Hemiptera, Orthoptera, and Lepidoptera and in the class Crustacea, but not in the class Merostomata. These studies suggest a possible fundamental role for HTF among modern arthropods in cuticular deposition involving both epidermis and fat body. The physiological role of HTF is undetermined.     

Alteration of hemolymph polypeptides in Manduca sexta larvae parasitized by Cotesia congregata: A two-dimensional electrophoretic analysis and comparison with major bacteria-induced proteins

Analyses using one-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) previously demonstrated that parasitization by the braconid wasp Cotesia congregata significantly alters the normal hemolymph polypeptide profile of host Manduca sexta larvae. In the present study two-dimensional gel analyses corroborated our earlier findings and provided additional evidence that multiple parasitism-specific polypeptides were induced, which varied according to the stage of development of the wasps. Parasitization additionally elicited changes in the total protein concentration detected in the blood. Initially an elevation was observed, with newly parasitized larvae exhibiting a twofold elevation in hemolymph protein concentration by 12–24 h postoviposition. In contrast, terminal-stage hosts with second instar parasites had significantly less protein in the hemolymph, likely due to reduced growth and inhibition of arylphorin synthesis by the fat body during the final stages of parasitism. Comparison of the array of hemolymph polypeptides produced in unparasitized larvae injected with 10⁶cells of the gram-negative bacterium Enterobacter cloacae with those proteins induced by parasitization indicated the two classes are different. Our findings confirm that the hostresponse to parasitism is a specific one, and not mimicked by bacterial challenge. Duringshort-term in vitro culture of wasp larvae dissected from the host hemocoel, several proteins were detected in the medium using SDS - PAGE, with their appearance in vitro suggestive of secretion by the wasps in vivo. Moreover, hemolymph from the parasites had significant amounts of putative host proteins, including an arylphorin - like polypeptide and a protein with a mobility similar to that of insecticyanin. Thus, a dynamic interchange of proteins may occur, with the parasites accumulating host proteins while simultaneously secreting a variety of factors into the host hemocoel.     

Identification of an Arylphorin-type Storage Protein in the Sweet Potato Hornworm, Agrius convolvuli

A major hemolymph protein (M_r 480,000) in the larvae of the sweet potato hornworm, Agrius convolvuli, was purified and characterized. This protein was isolated with a high yield from the hemolymph of day 3 fifth final instar larvae by ammonium sulfate precipitation and Phenyl-Sepharose and Q-Sepharose column chromatographies. The protein has two subunits, an M_r 84,000 subunit (α) and an M_r 80,000 subunit (β), and the native protein was composed of a heterohexamer (α₃β₃). The two subunits have similar amino acid compositions, with high contents of aromatic amino acids (about 15% phenylalanine plus tyrosine) and low levels of methionine. The N-terminal amino acid sequences of both subunits showed high homologies with insect arylphorin-type storage proteins. The protein concentration in the hemolymph increased steeply from day 3 final instar larva and reached a maximum level of 42 mg/ml in females and 41 mg/ml in males among wandering larvae. The concentration in the hemolymph declined once during the larval–pupal transformation but remained high during the early–mid pupal period and almost disappeared after adult emergence. These quantitative changes were the same for males and females. Based on these characteristics, we identified the hemolymph protein as an arylphorin-type storage protein.     

Regulation of fat body glycogen phosphorylase activity during refeeding in Manduca sexta larvae

In 12-h-starved larvae of the tobacco hornworm, Manduca sexta, fat body glycogen phosphorylase was quickly inactivated when insects were refed with normal diet and agar which contained 3% sucrose. Only the first 2 min of refeeding were necessary to induce enzyme inactivation. During this short period, larvae did not ingest enough sucrose to increase the hemolymph glucose concentration. This may indicate that the gut released a hormone(s) which directly or indirectly led to the inactivation of fat body glycogen phosphorylase. Inactivation of the enzyme could also be induced by injection of glucose (30 mg) into the hemolymph of starving M. sexta larvae suggesting that there may be separate control from a neuroendocrine site such as the brain or the corpora cardiaca. Trehalose was less effective. Bovine insulin (2 and 4 μg/starved larva) did not induce phosphorylase inactivation over 20 min or decrease hemolymph carbohydrate or lipid concentrations within 60 min. It is, therefore, necessary to screen insect tissues for substances which could bring about inactivation of fat body glycogen phosphorylase. © 1992 Wiley-Liss, Inc.     

Identification,characterization, and developmental profile of a high molecular weight,juvenile hormone-binding protein in the hemolymph of the migratory grasshopper,Melanoplus sanguinipes

In the hemolymph of Melanoplus sanguinipes, a high molecular weight juvenile hormone binding protein (JHBP) was identified by photoaffinity labelling and found to have a M_r of 480,000. The JHBP, purified using native gel electrophoresis followed by electroelution, has an equilibrium dissociation constant for JH III of 2.1 nM and preferentially binds JH III over JH I. Antibody raised against JHBP recognized only the 480,000 band. Under denaturing conditions the native JHBP gave a single band with a M_r 78,000. The antibody against native JHBP recognized only the 78,000 protein in SDS-treated hemolymph samples, indicating that JHBP is a hexamer in this species. The concentration of JHBP fluctuates in both the sexes during nymphal and adult development in parallel with total protein content of hemolymph. © 1995 Wiley-Liss, Inc.