Trehalose-hydrolysing enzymes of Metarhizium anisopliae and their role in pathogenesis of the tobacco hornworm,Manduca sexta

Trehalose is the main haemolymph sugar in most insects including the tobacco hornworm, Manduca sexta, and is potentially a prime target for an invading pathogenic fungus. There was considerably more trehalose-hydrolysing activity in the haemolymph of caterpillars infected with Metarhizium anisopliae than in controls. This appeared to be due primarily to additional isoforms; one of which could also hydrolyse maltose and was designated an alpha-glucosidase. A comparable isoform was identified in in vitro culture of the fungus, supporting a fungal origin for the in vivo enzyme. The in vitro fungal enzyme, alpha-glucosidase-1 (alpha-gluc-1), was purified to homogeneity and partially characterised. A study with the trehalase inhibitor trehazolin and C14 trehalose suggested that extracellular hydrolysis is important for fungal mobilisation of trehalose. Haemolymph glucose increases significantly during mycosis of tobacco hornworm larvae by M. anisopliae, consistent with the hydrolysis of trehalose by extracellular fungal enzymes. The implications for the host insect are discussed.     

The role of destruxins in the pathogenicity of 3 strains of Metarhizium anisopliae for the tobacco hornworm Manduca sexta

Three out of 4 isolates of the Deuteromycete Metarhizium anisopliae were pathogenic for larvae of the tobacco hornworm, Manduca sexta. The most virulent isolate (ME1) grew sparsely in the insect prior to death and caused paralysis of its host. The other 2 pathogenic isolates killed Manduca larvae more slowly, grew profusely in the haemolymph and did not induce symptoms of toxicosis. Toxicosis is apparently due to the production by the fungus of several cyclodepsipeptide toxins, destruxins (DTX). ME1 produced large quantities of DTX in vitro, while other isolates produced less. Destruxin A (DTX A) was recovered from the haemolymph of paralysed, diseased insects infected with ME1, but not with other isolates. It is suggested that DTX may have a pathogenic role, when the toxins are active in causing disease, or an aggressive role, when they facilitate the establishment of the pathogen.     

Acid/base transport across the midgut of the tobacco hornworm,Manduca sexta

Larval Lepidoptera generate a large pH gradient across the midgut epithelium. The in vitro rate of luminal alkalinization (J(OH-)) and hemolymph acidification (J(H+)) under nominally CO(2)-free conditions was measured in the three morphologically distinct regions of the tobacco hornworm midgut. Under open-circuit conditions, the highest J(OH-) and J(H+) was observed in the anterior section and the lowest was in the middle section. In all three sections the J(H+) was equal to J(OH-) indicating transepithelial movement of acid or base equivalents. Furthermore, the rate at which the midgut transported acid or base was the same under open- and short-circuit conditions, indicating that acid/base transport is an active process. Although the inhibitors, acetazolamide and ethoxyzolamide, inhibited the activity of carbonic anhydrase in tissue homogenates, they had no effect on J(OH-), J(H+), or transepithelial potential. Therefore, under the nominally CO(2)-free conditions of this study, it is unlikely that hydration of CO(2) and the formation of HCO(3)(-) is involved in luminal alkalinization.     

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.     

Structure-activity relationship of ETH during ecdysis in the tobacco hornworm, Manduca sexta

In insects, ecdysis or shedding of the old cuticle, consists of a series of behaviors that are regulated by the coordinated actions of a number of neuropeptides, one of which is ecdysis triggering hormone (ETH). ETH acts directly on central pattern generators of the abdominal ganglia to trigger onset of pre-ecdysis behaviors, as well as indirectly to activate release of eclosion hormone, thereby inducing onset of ecdysis behaviors through a cGMP-mediated mechanism. We assessed the minimal C-terminal amino acids required for biological activity of ETH, by assessing: (i) onset of pre-ecdysis and ecdysis behaviors in vivo, after injection of peptide analogs, (ii) onset of fictive pre-ecdysis and ecdysis motor patterns in vitro, as recorded extracellularly, after incubation of the CNS with the peptide analogs, and (iii) accumulation of cGMP within cells of the abdominal ganglia, as assessed immunohistochemically. Amidation of ETH at the C-terminus was required to elicit a biological response in vivo and in vitro, as well as an accumulation of cGMP within the CNS. The five amino acid amidated C-terminus of ETH (NIPRMamide) was the minimal moiety able to induce a robust pre-ecdysis response in vivo and in vitro, while a seven amino acid core (NKNIPRMa) was required for induction of ecdysis, including accumulation of cGMP immunoreactivity within the CNS. Analogs smaller than 12 amino acids in length were only active at very high concentrations in vivo, suggesting that smaller fragments might be susceptible to hemolymph degradation. Some alanine substitutions or removal of internal amino acids altered the activity of ETH, as well as the time of onset of ecdysis behaviors, suggesting that internal amino acids play a role in maintaining proper folding of the peptide for successful binding or activity at the ETH receptor.     

Studies on vitellogenin from the tobacco hornworm,Manduca sexta

In the tobacco hornworm moth, Manduca sexta, vitellogenin (Vg) is a very high-density (1.29 g/ml) phosphoglycolipoprotein containing 13% lipids, 3% carbohydrates, and 0.6% protein-bound phosphorus. Vitellogenin (M_r～500,000) has two apoproteins designated apoVg-l (M_r 177,000 ± 3,600) and apoVg-ll (M_r45,000 ± 5,000). ApoVg-l and apoVg-II can be dissociated with 6 M guanidine HCI and separated from each other by gel permeation chromatography. Immunoblotting experiments using antibodies against the apoproteins showed that apoVg-l and apoVg-II antigens were immunologically distinct polypeptides. Antibodies against Vg reacted only with apoVg-l. Antibodies against Vg and apoVg-l reacted with Vg in double immunodiffusion experiments, whereas antibodies against apoVg-II did not. These results suggest that in the native Vg molecule, apoVg-II is positioned inside the molecule away from the aqueous environment. Only apoVg-I contained covalently bound carbohydrate as shown by fluorescein isothiocyanateconjugated concanavalin A, periodate-Schiff reagent, and in vivo labeling with ³H-Man. In vivo labeling with ³²P-inorganic phosphate and chemical determination showed that apoproteins of both Vg and vitellin contain covalently bound phosphate groups.     

Microstructure of feeding by tobacco hornworm caterpillars, Manduca sexta

The microstructure of the feeding activity of tobacco hornworm caterpillars (Manduca sexta Johansson) on tomato leaf was examined by means of an automated cafeteria. In this device each activity of the caterpillar generates a characteristic slow electrical change which can be recorded. The apparatus is therefore both accurate and sensitive. Examination of the activity records indicated that larger animals ate more than smaller ones by increasing both bite frequency and the lengths of meals. Meal frequency did not increase. Correlations amongst a variety of measures indicated that there was regulation of feeding both between and within meals.     

Proteinases in molting fluid of the tobacco hornworm,Manduca sexta

Manduca sexta pharate pupal molting fluid contains more than 10 proteolytic enzymes that differ in relative mobility during electrophoresis in polyacrylamide gels containing sodium dodecyl sulfate and gelatin. The major gelatin digesting enzyme was an endoprotease with an apparent molecular weight of 100 kDa. Gel filtration on a Sephacryl S-300 column resolved another endoprotease of similar size that digests azocoll and [³H]casein. In addition we found an aminopeptidase-like enzyme (MW_app 500 kDa) and at least three carboxypeptidase-like enzymes (MW_app 10–60 kDa). Use of pseudosubstrates and inhibitors suggested the presence of both trypsin-like and chymotrypsin-like enzymes with the former activity approx. 10-fold greater than the latter. However, none of the proteolytic enzymes were substantially inhibited by diisopropylphosphorofluoridate or phenylmethylsulfonyl fluoride which are poteint inhibitors of trypsin and chymotrypsin. No carboxyl or sulfhydryl proteases were detected. The enzymes were most active in the neutral to alkaline pH range, but they were relatively unstable during storage which precluded their purification to homogeneity. Proteolysis of Manduca cuticular protein appears to involve a rather complex and unique mixture of endo- and exo-cleaving proteolytic enzymes.     

Regulation of translation during oogenesis and embryogenesis in the tobacco hornworm,Manduca sexta

Summary

Translational activity in the oocyte and early embryo of Manduca sexta may be regulated by a number of mechanisms including availability of ribosomal subunits, the protein complement of the maternal mRNP, and the presence of a functional 5′ cap structure on the maternal mRNA. We present preliminary experiments concerning the role of intracellular pH in the activation of protein synthesis and the nature of the cortical cytoskeleton of the mature oocyte and its possible role in immobilizing maternal mRNA.     

Heat sensitivity and protein synthesis during heat-shock in the tobacco hornworm,Manduca sexta

Summary Fifth instar larvae of the tobacco hornworm,Manduca sexta, tolerate 1-h exposures to temperatures as high as 42°C. Above 42°C, survival declines rapidly to 18% at 44°C and 0% at 48°C. As in other insects, the heat-shock response ofManduca sexta involves the induction of synthesis of heat-shock proteins very similar in size to theDrosophila heat-shock proteins (84, 73, 71, 27, 25, 23, and 22 kd). In the epidermis, heat-shock protein synthesis peaks at 42°C, correlating with the heat sensitivity of both the tissue itself and the intact larva. Some heat-shock proteins have different isoelectric forms depending on tissue. Also, the heat-shock proteins are synthesized over a wider range of temperatures in the imaginal discs and the fat body as compared to the epidermis. In contrast to dipteran insects,Manduca sexta does not exhibit a strong repression of non-heat-shock protein synthesis under tolerable conditions.Abbreviations TCA trichloroacetic acid - PAGE polyacrylamide gel electrophoresis - AZT arbitrary Zeitgeber time - kd kilodaltons     

Lipoprotein biosynthesis in the larvae of the tobacco hornworm, Manduca sexta

Lipoprotein biosynthesis in larvae of the tobacco hornworm (Manduca sexta) was investigated. By immunoblotting, it was shown that the apoproteins are present in the fat body, but not in the midgut. Fat body incubated in vitro with [35S]methionine secreted labeled apoproteins. However, when the density of the secreted particle was determined, it was found at 1.24-1.28 g/ml instead of 1.15 g/ml, which is the density of the circulating lipoprotein. Lipid analysis of immunoprecipitated lipoprotein secreted by the fat body showed a phospholipid/diacylglycerol ratio of 8.3 rather than 0.9, the ratio found in the circulating lipoprotein. When labeled oleic acid or triolein was fed to larvae, it was found that greater than 98% of the label in the circulating lipoprotein was in diacylglycerol. In studies using animals raised on a fat-free diet, it was shown that the circulating lipoprotein has properties comparable to those of the material secreted in vitro by the fat body and that this diacylglycerol-poor particle can be converted to the normal lipoprotein by feeding a bolus of triolein. These data support the hypothesis that the fat body makes and secretes a "nascent" lipoprotein which contains apoproteins and phospholipid, but is devoid of diacylglycerol. The diacylglycerol is then picked up from the midgut to complete assembly of the mature circulating lipoprotein.     

Regulation of ecdysteroidogenesis in prothoracic glands of the tobacco hornworm Manduca sexta

Ecdysteroidogenesis in Manduca sexta prothoracic glands is regulated by a set of bioregulatory molecules, including prothoracicotropic hormone (PTTH) and a protein factor present in larval hemolymph, and by the competence of the glands to synthesize ecdysteroids in response to those molecules. A larval molting bioassay was used to assess the in vivo activity of Manduca PTTHs. Crude PTTH, big PTTH, and small PTTH each elicited a larval molt in head-ligated larvae. However, big PTTH was approximately 10-fold more potent than crude PTTH, which was, in turn, several orders of magnitude more potent than small PTTH. When big and small PTTH were combined, the molting response was similar to that elicited with crude PTTH. The chemical nature of the hemolymph protein factor was also investigated. Injection of [3H]cholesterol into last-instar larvae and fractionation of the radiolabeled hemolymph by gel filtration chromatography revealed three peaks of radioactivity. One peak eluted in fractions containing the hemolymph protein factor, a result consistent with the notion that the factor transports a sterol substrate. The possibility that the factor is a 3(2)-ketoreductase was investigated by assessing the effect of the factor on the accumulation of RIA-detectable ecdysteroids in prothoracic-gland-conditioned medium. Three of five preparations of the factor significantly enhanced the amount of RIA-detectable ecdysteroids in conditioned medium, indicating that at least some preparations of the factor may contain ketoreductase activity. The above findings are discussed in the context of current hypotheses of how bioregulatory molecules interact with the prothoracic glands to regulate ecdysteroidogenesis in Manduca.     

Phospholipase A2 in hemocytes of the tobacco hornworm,Manduca sexta

On the hypothesis that prostaglandins and other eicosanoids mediate nodulation responses to bacterial infections in insects, we describe an intracellular phospholipase A₂ (PLA₂) in homogenates prepared from hemocytes collected from the tobacco hornworm, Manduca sexta. PLA₂ hydrolyzes fatty acids from the sn-2 position of phospholipids. Some PLA₂s are thought to be the first and rate-limiting step in biosynthesis of prostaglandins and other eicosanoids. The hemocyte PLA₂ activity was sensitive to hemocyte homogenate protein concentration (up to 250 μg protein/reaction), pH (optimal activity at pH 8.0), and the presence of a Ca²⁺ chelator. Like PLA₂s from mammalian sources, the hemocyte PLA₂ was inhibited by the phospholipid analog oleyoxyethyl phosphorylcholine. Whereas most intracellular PLA₂s require Ca²⁺ for catalytic activity, some PLA₂s, including the hemocyte enzyme, are Ca²⁺-independent. The hemocyte PLA₂ exhibited a preference for arachidonyl-associated substrate over palmitoyl-associated substrate. These findings show that M. sexta hemocytes express a PLA₂ that shows a marked preference for hydrolyzing arachidonic acid from phospholipids. The biological significance of this enzyme relates to cellular immune responses to bacterial infections. The hemocyte PLA₂ may be the first biochemical step in synthesis of the eicosanoids that mediate cellular immunity in insects. © 1996 Wiley-Liss, Inc.     

Carbohydrate and lipid metabolism during the last larval moult of the tobacco hornworm, Manduca sexta

Abstract. At 25°C and with a light regime of 17 h light and 7h dark, the last larval moult of the tobacco hornworm, Manduca sexta , lasts approximately 32 h, during which profound changes of metabolism were observed. At the onset of the moult, which coincides with the cessation of feeding, the proportion of active fat body glycogen phosphorylase increased from 10 (-2h) to 25–30% (Oh). A biphasic pattern with peak activities of 45–50% after t – 12 h and again just prior to the shedding of the cuticle (32 h) was subsequently observed. Haemolymph trehalose concentration decreased significantly from c. 35 (Oh) to 20mM (8h), but then recovered to an intermediate level (30mM; 12h). After completion of the moult, the trehalose concentration was 35–40 mM. The haemolymph glucose level in feeding fourth instar larvae was 4–5 mM, but decreased sharply before the onset of the moult to c. 1 mM, followed by a slow 6-fold increase over the next 20h. Prior to the shedding of the cuticle, the glucose level dropped again dramatically. The haemolymph lipid level increased slowly from an initial level of 1.2–1.4mg/ml during the early part of the moult, reaching a maximum of 1.8mg/ml after /= 16 h. Afterwards, a decrease of c. 50% was observed until ecdysis occurred. Oxygen consumption per animal decreased steadily from 30–35 μl/min pre-moult by approximately 70% to c. 10 μl/min but started to increase about 5 h before the animals resumed feeding.     

Molecular cloning of the prothoracicotropic hormone from the tobacco hornworm,Manduca sexta

A cDNA encoding a putative precursor of prothoracicotropic hormone (PTTH) from the tobacco hornworm, Manduca sexta, was isolated and sequenced. This clone contains an open reading frame encoding a 226-amino acid prepropeptide hormone. The deduced amino acid sequence is composed of a signal sequence, a precursor domain and a mature hormone and shows similarities to the other PTTHs that have been cloned from closely related lepidopteran species, Bombyx mori, Samia cynthia ricini, Antheraea peryni, and Hyalophora cecropia. Although these cDNAs showed slightly less similarities in predicted amino acid sequences, seven cysteine residues and the hydrophobic regions within those mature peptides were conserved. In situ hybridization using a cDNA probe encoding the Manduca PTTH showed that PTTH mRNA was in two pairs of neurosecretory cells in the Manduca brain. The recombinant putative Manduca PTTH produced in E. coli was biologically active, both causing a larval molt in neck-ligated Manduca 4th instar larvae (ED(50)=50 pM) and the adult molt of diapausing Manduca pupae (ED(50)=79 pM), but was unable to stimulate molting of debrained Bombyx pupae.     

Cell differentiation in the embryonic midgut of the tobacco hornworm, Manduca sexta

While the larval midgut of Manduca sexta has been intensively studied as a model for ion transport, the developmental origins of this organ are poorly understood. In our study we have used light and electron microscopy to investigate the process of midgut epithelial cell differentiation in the embryo. Our studies were confined to the period between 56 and 95 hr of embryonic development (hatching is at 101 hr at 25 degrees C), since preliminary studies indicated that all morphologically visible differentiation of the midgut epithelium occurs during this time. At 56 hr the midgut epithelium is organized into a ragged pseudostratified epithelium. Over the next 10 hr, the embryo molts and the midgut epithelium takes on a distinctive character in which the future goblet and columnar cells can be identified. With further differentiation, closed vesicles in the goblet cells expand and subsequently communicate to the outside by way of a valve. The columnar cells form numerous microvilli on their apical surfaces that extend over the goblet cells. Both cell types form basal folds from a series of plasmalemmal invaginations. Differentiation occurs concurrent with a six-fold elongation of these cells.     

Diapause-dependent changes in prothoracicotropic hormone-producing neurons of the tobacco hornworm,Manduca sexta

The prothoracicotropic hormone (PTTH), which stimulates ecdysteroid synthesis in the prothoracic glands, is produced, in the dorso-lateral protocerebrum of Manduca sexta, by paired peptidergic neurons, the lateral neurosecretory cell group III (L-NSC III). Our study revealed ultrastructural features of L-NSC III, identified by immunogold labeling, and compared developing and diapause states. In developing and early-diapause pupae, L-NSC III soma ultrastructure is similar and is characterized by numerous clusters of neurosecretory granules (NSG) and an extensive trophospongium formed by satellite-glial cells. However, as diapause progresses, the ultrastructure changes, with the NSG becoming concentrated into large clusters separated by highly organized rough endoplasmic reticulum. Most conspicuous is a substantial reduction in the number of Golgi complexes and the glial trophospongium, and the presence of stacked plasma membrane separating the glia and neuron somata. The deep-diapause soma also has abundant glycogen deposits and autophagic vacuoles. With diapause termination, this morphology reverts to the nondiapause ultrastructure within three days, i.e. just before PTTH release that evokes development to the adult. During PTTH release the abundance of NSG in the soma does not change, suggesting that NSG depletion in the perikarya is not a marker for neurosecretion by the L-NSC III.     

Hormonal control of rates of metamorphic development in the tobacco hornworm Manduca sexta

The rate of metamorphosis in Manduca appears to be under continuous regulation by the circulating titer of the ecdysteroids. Ecdysteroids promote development during the first third of adult differentiation. We present here several lines of evidence indicating that the role of the ecdysteroids then changes to being inhibitory during the later stages of adult differentiation. Abdomen ligation, which precipitously reduces the levels of ecdysteroids in the abdomen, accelerates the rates of tissue development in this region. This acceleration can be counteracted by ecdysteroid injection or by implantation of prothoracic glands. Infusion of ecdysteroids into insects late in development results in a dose-dependent depression in the rate of subsequent development. The effectiveness of a given dosage of steroid is dependent on the developmental stage, with older animals being more affected. Last, the normal ecdysteroid titer declines in a stepwise fashion over the last 3 days of development and these steps are paralleled by a drop-off in the effectiveness of abdomen ligation over this same period. It is concluded that this effect of the ecdysteroids late in development provides a mechanism to ensure that the various tissues of the insect complete metamorphosis in a coordinated fashion.     

Characterization of a diuretic hormone receptor from the tobacco hornworm,Manduca sexta

We have characterized a diuretic hormone receptor from the tobacco hornworm, Manduca sexta. A single high affinity binding site for the 41 amino acid M. sexta diuretic hormone was found in membranes prepared from Malpighian tubules of fifth stadium larvae. The site has a Kd = 79 pM and Bmax = 3.1 pmol/mg protein. The dissociation rate constant was determined to be 0.11 min^?1 with a corresponding half-life of 6.4 min. Receptor binding of the hormone is inhibited by Ca²⁺ and Mg2⁺, while Na⁺ and K⁺ inhibit binding to a lesser extent. Truncated diuretic hormone analogs in which up to 20 amino acids were removed from the N-terminus maintain high affinity for the receptor. A diuretic hormone from Locusta migratoria which has 43% sequence identity with the M. sexta diuretic hormone also possesses a high affinity for the receptor. Conformational analysis of the M. sexta diuretic hormone indicates the core region of the peptide assumes a helical conformation, which may have implications in the binding of the peptide to the receptor. © 1993 Wiley-Liss. Inc.