Towards a comprehensive view of the primary structure of venom proteins from the parasitoid wasp Pimpla hypochondriaca

Venom from the parasitoid wasp Pimpla hypochondriaca has potent in vivo activity against insect haemocytes and disrupts host immune responses. Using hybridisation techniques, and more recently random sequence analysis, we had previously identified cDNAs encoding 10 venom proteins from this wasp and deduced their primary structures. We have now extended the random sequence analysis and discovered a further nine cDNAs encoding proteins with predicted signal sequences. The mature proteins were calculated to have masses of between 4 and 22 kDa. Post-signal sequence residues predicted from the cDNAs matched those derived by Edman degradation from venom proteins separated using gel filtration and reverse phase chromatography, confirming that the cloned cDNAs encode proteins which are secreted into the venom sac. Proteins containing at least six cysteine residues were abundant and seven of these cysteine-rich venom proteins, cvp1-7, were identified. The sequences of some of these proteins were similar, or contained similar cysteine arrangements, to Kunitz type protease inhibitors, pacifastin, the trypsin inhibitor domain protein family, atracotoxin and omega-conotoxin, respectively, which occur in a diverse range of animals including spiders, molluscs, humans and grasshoppers. Two small venom proteins, svp1 and svp2, as well as cvp7 did not have similar sequences to proteins in the GenBank protein database suggesting they may be highly specialised venom components. The random sequencing approach has provided a rapid means of determining the primary structure of the majority of Pimpla hypochondriaca venom proteins.     

cDNAs encoding large venom proteins from the parasitoid wasp Pimpla hypochondriaca identified by random sequence analysis

Venom from the parasitoid wasp Pimpla hypochondriaca contains numerous proteins, has potent in vitro anti-haemocytic properties, and disrupts host encapsulation responses. By sequencing 500 cDNAs randomly isolated from a venom gland library, we have identified 60 clones that encode proteins containing potential secretory signal sequences. To identify cDNAs encoding particular venom proteins, N-terminal amino acid sequences were determined for large (>30 kDa) venom proteins that had been separated using a combination of gel filtration and SDS-PAGE. We describe five of these cDNAs, which encoded residues that matched with the N-terminal sequences of previously undescribed venom proteins. cDNAs vpr1 and vpr3 encoded related proteins of approximately 32 kDa that were found in widely different fractions of gel filtration-separated venom. Neither vpr1 nor vpr3 were closely related to any other protein in the GenBank database, suggesting that they are highly specialised venom components. vpr2 encoded a 57-kDa polypeptide that was similar to a Drosophila protein, of unknown function, which lacks a signal sequence. A fourth clone, tre1, encoded a 61-kDa protein with extensive sequence similarity to trehalases. The 76-kDa sequence encoded by lac1 contained three regions which were very similar to histidine-rich copper-binding motifs, and could be aligned with the laccase from the fungus Coprinus cinereus. This study represents a significant step towards a holistic view of the molecular composition of a parasitoid wasp venom.     

Effects of Hexaflumuron and Pyriproxyfen on the purified Phenoloxidase of Chilo suppressalis Walker (Lepidoptera: Crambidae)

Effects of two insect growth regulators (IGRs), hexaflumuron and pyriproxyfen, were studied on the purified phenoloxidase (PO) of Chilo suppressalis. Purification procedure revealed two isozymes of PO, namely POI and POII. IC₅₀ concentrations of hexaflumuron and pyriproxyfen on POI were 0.36, 0.23?μg/ml and on POII were 0.105, 0.42?μg/ml, respectively. Determination of optimal pH and temperature revealed pH 5 and temperature 40?°C as the optimal values for the enzymatic activity. Treating POs with IC₅₀ concentrations of two IGRs was pH and temperature dependent. Effects of these IGRs on POI caused significant increase of K_m value versus control suggesting competitive inhibition. Hexaflumuron and pyriproxyfen cause reduction in V_max value of POII versus control suggesting non-competitive inhibition. The current study shows direct effects of two IGRs on purified PO of C. suppressalis for the first time. These findings could be helpful to develop safe compounds with inhibitory mechanism on PO to neutralise insect immune responses against entomopathogenic agents.     

Antibacterial and proteolytic activity in venom from the endoparasitic wasp Pimpla hypochondriaca (Hymenoptera: Ichneumonidae)

Venom from the endoparasitic wasp, Pimpla hypochondriaca, is composed of a mixture of high and low molecular weight proteins, possesses phenoloxidase activity, has immunosuppressive properties, and induces paralysis in several insect species. In the present study we demonstrate that P. hypochondriaca venom also contains antibacterial and proteolytic activity. Antibacterial activity was detected against the Gram-negative bacteria Escherichia coli and Xanthamonas campestris but not against Pseudomonas syringae nor against two Gram-positive bacteria, Bacillus cereus and Bacillus subtilis. Endopeptidase and aminopeptidase activity in venom was detected using the synthetic fluorogenic substrates N-t-BOC-Phe-Ser-Arg-AMC, Arg-AMC and Leu-Arg. The aminopeptidase activity towards Arg-AMC was sensitive to amastatin (70% inhibition), an aminopeptidase inhibitor. Angiotensin-converting enzyme (ACE)-like enzyme activity was detected, by reverse-phase HPLC using the synthetic tripeptide Hip-His-Leu as a substrate. This activity was sensitive to captopril, an ACE inhibitor (IC(50) 3.8 x 10(-8) M). Using an antiserum raised against recombinant Drosophila melanogaster ACE-like enzyme, (rAnce), Western blot analysis revealed an immunoreactive protein, with a molecular weight estimate of 74 kDa, in P. hypochondriaca venom. The possibility that the endopeptidase, aminopeptidase and ACE are involved in the processing of peptide precursors in the venom sac is discussed.     

Phenoloxidase in larvae of Plodia interpunctella (Lepidoptera: Pyralidae): molecular cloning of the proenzyme cDNA and enzyme activity in larvae paralyzed and parasitized by Habrobracon hebetor (Hymenoptera: Braconidae)

Phenoloxidase (PO) is a major component of the insect immune system. The enzyme is involved in encapsulation and melanization processes as well as wound healing and cuticle sclerotization. PO is present as an inactive proenzyme, prophenoloxidase (PPO), which is activated via a protease cascade. In this study, we have cloned a full-length PPO1 cDNA and a partial PPO2 cDNA from the Indianmeal moth, Plodia interpunctella (Hubner) (Lepidoptera: Pyralidae) and documented changes in PO activity in larvae paralyzed and parasitized by the ectoparasitoid Habrobracon hebetor (Say) (Hymenoptera: Braconidae). The cDNA for PPO1 is 2,748 bp and encodes a protein of 681 amino acids with a calculated molecular weight of 78,328 and pI of 6.41 containing a conserved proteolytic cleavage site found in other PPOs. P. interpunctella PPO1 ranges from 71-78% identical to other known lepidopteran PPO-1 sequences. Percent identity decreases as comparisons are made to PPO-1 of more divergent species in the orders Diptera (Aa-48; As-49; and Sb-60%) and Coleoptera (Tm-58; Hd-50%). Paralyzation of host larvae of P. interpunctella by the idiobiont H. hebetor results in an increase in phenoloxidase activity in host hemolymph, a process that may protect the host from microbial infection during self-provisioning by this wasp. Subsequent parasitization by H. hebetor larvae causes a decrease in hemolymph PO activity, which suggests that the larval parasitoid may be secreting an immunosuppressant into the host larva during feeding.     

Characterization and cDNA cloning of dipeptidyl peptidase IV from the venom of Gloydius blomhoffi brevicaudus

Dipeptidyl peptidase activity was investigated in snake venoms from Gloydius blomhoffi brevicaudus, Gloydius halys blomhoffii, Trimeresurus flavoviridis and Crotalus atrox. The strongest dipeptidyl peptidase IV (DPP IV) activity was found in venom from G. blomhoffi brevicaudus. The substrate specificity, susceptibility to inhibitors, and pH optimum of the partially purified enzyme were similar to those of known DPP IVs from bacteria and eukaryotes. The G. blomhoffi brevicaudus venom gland cDNA library was screened to isolate cDNA clones using probes based on amino acid sequences highly conserved in known DPP IVs. Two cDNA species encoding DPP IV were obtained, and designated as DPP IVa and DPP IVb. This is the first study to report the primary structure of DPP IV from a reptile. The deduced amino acid sequences for DPP IVa and DPP IVb both consist of 751amino acid residues and are highly homologous to each other. A putative catalytic triad for serine proteases, Ser-616, Asp-694, and His-726, is present. It is of particular interest that the deduced NH(2)-terminal sequence associated with the characteristic signal peptide is identical to that determined from the purified DPP IV. This indicates that the signal peptide of snake venom DPP IV is not cleaved off during biosynthesis, unlike those of other snake venom proteins.     

Molecular and biochemical analysis of an aspartylglucosaminidase from the venom of the parasitoid wasp Asobara tabida (Hymenoptera: Braconidae)

The most abundant venom protein of the parasitoid wasp Asobara tabida was identified to be an aspartylglucosaminidase (hereafter named AtAGA). The aim of the present work is the identification of: 1) its cDNA and deduced amino acid sequences, 2) its subunits organization and 3) its activity. The cDNA of AtAGA coded for a proαβ precursor molecule preceded by a signal peptide of 19 amino acids. The gene products were detected specifically in the wasp venom gland (in which it could be found) under two forms: an (active) heterotetramer composed of two α and two β subunits of 30 and 18 kDa respectively and a homodimer of 44 kDa precursor. The activity of AtAGA enzyme showed a limited tolerance toward variations of pH and temperatures. Since the enzyme failed to exhibit any glycopeptide N-glycosidase activity toward entire glycoproteins, its activity seemed to be restricted to the deglycosylation of free glycosylasparagines like human AGA, indicating AtAGA did not evolve a broader function in the course of evolution. The study of this enzyme may allow a better understanding of the functional evolution of venom enzymes in hymenopteran parasitoids.     

The role of Pimpla hypochondriaca venom in the suppression of pupal Noctuid host immunity

When pupae of the Tomato moth (Lacanobia oleracea L.) (Lepidoptera: Noctuidae) are injected with venom from the endoparasitoid wasp Pimpla hypochondriaca Retzius (Hymenoptera: Ichneumonidae), they show an increased susceptibility to the fungal entomopathogen Metarhizium anisopliae Sorokin (Fungi Imperfecti: Deuteromycotina). This observation, coupled with the fact that wasp eggs are comparatively unlikely to be encapsulated when implanted into envenomated pupae, suggests that venom of P. hypochondriaca suppresses the cellular immune defense mechanisms of L. oleracea. Injection of host pupae with the venom of P. hypochondriaca has a rapid, adverse effect on the normal respiration pattern of L. oleracea. It is possible that severe disruption to host-metabolism may contribute to a general failure in the hosts' normal immune response repertoire.     

Characterization of phenoloxidase activity in venom from the ectoparasitoid Nasonia vitripennis (Walker) (Hymenoptera: Pteromalidae)

Crude venom isolated from the ectoparasitic wasp Nasonia vitripennis was found to possess phenoloxidase (PO) activity. Enzyme activity was detected by using a modified dot blot analysis approach in which venom samples were applied to nylon membranes and incubated with either L-DOPA or dopamine. Dot formation was most intense with dopamine as the substrate and no activators appeared to be necessary to evoke a melanization reaction. No melanization occurred when venom was incubated in Schneider's insect medium containing 10% fetal bovine serum or when using tyrosine as a substrate, but melanization did occur when larval or pupal plasma from the fly host, Sarcophaga bullata, was exposed to tyrosine. Only fly larval plasma induced an enzyme reaction with the Schneider's insect medium. The PO inhibitor phenylthiourea (PTU) and serine protease inhibitor phenylmethylsulfonylfluoride (PMSF) abolished PO activity in venom and host plasma samples, but glutathione (reduced) only inhibited venom PO. Elicitors of PO activity (sodium dodecyl sulfate and trypsin) had no or a modest effect (increase) on the ability of venom, or larval and pupal plasma to trigger melanization reactions. SDS-PAGE separation of crude venom followed by in-gel staining using L-DOPA as a substrate revealed two venom proteins with PO activity with estimated molecular weights of 68 and 160 kDa. In vitro assays using BTI-TN-5B1-4 cells were performed to determine the importance of venom PO in triggering cellular changes and evoking cell death. When cell monolayers were pre-treated with 10 mM PTU or PMSF prior to venom exposure, the cells were protected from the effects of venom intoxication as evidenced by no observable cellular morphological changes and over 90% cell viability by 24 h after venom treatment. Simultaneous addition of inhibitors with venom or lower concentrations of PMSF were less effective in affording protection. These observations collectively argue that wasp venom PO is unique from that of the fly hosts, and that the venom enzyme is critical in the intoxication pathway leading to cell death.     

Identification of three novel peptides isolated from the venom of the neotropical social wasp Polistes major major.

Three novel peptides designated as PMM1, PMM2, and PMM3 were isolated and characterized from the venom of the social wasp Polistes major major, one of the most common wasps in the Dominican Republic. By Edman degradation, and MALDI-TOF and ESI-QTOF mass spectrometry, the primary sequences of these peptides were established as follows: PMM1, H-Lys-Arg-Arg-Pro-Pro-Gly-Phe-Thr-Pro-Phe-Arg-OH (1357.77 Da); PMM2, H-Ile-Asn-Trp-Lys-Lys-Ile-Ala-Ser-Ile-Gly-Lys-Glu-Val-Leu-Lys-Ala-Leu-NH2 (1909.19 Da); and PMM3, H-Phe-Leu-Ser-Ala-Leu-Leu-Gly-Met-Leu-Lys-Asn-Leu-NH2 (1317.78 Da). The suggested sequences were confirmed by MS analysis of peptide fragments obtained by enzymatic digestion. The peptide PMM1 is a lysyl-arginyl-Thr(6)-bradykinine that belongs to the wasp kinins group. The sequence of the PMM2 peptide is unique; it resembles somewhat the tetradecapeptide amides of the mastoparan group; however, the chain is extended by three additional amino acid residues. The sequence of PMM3 dodecapeptide is homologous to the peptides of the wasp chemotactic group.     

Parasitism of Lacanobia oleracea (Lepidoptera) by the ectoparasitoid, Eulophus pennicornis, is associated with a reduction in host haemolymph phenoloxidase activity

When haemolymph from fifth instar Lacanobia oleracea was incubated in vitro, rapid melanization occurred. Similar levels of melanization occurred in haemolymph from larvae that had been experimentally injected with venom from the ectoparasitic wasp, Eulophus pennicornis. In contrast, haemolymph from larvae parasitized by this wasp melanized more slowly and less extensively. Phenoloxidase assays indicated that enzyme activity was present in haemocyte lysate supernatants, serum and plasma from L. oleracea and that on day 5 post-parasitization, fractions prepared from parasitized larvae had significantly less phenoloxidase activity than similar fractions from untreated or experimentally envenomated larvae. In addition, no PO activity was detectable in wasp venom, and the venom had no effect on L. oleracea plasma phenoloxidase activity in vitro. These results indicate that parasitism of L. oleracea by E. pennicornis suppresses host haemolymph phenoloxidase activity and that this suppression is not induced by adult wasp venom. The results are discussed with reference to the survival advantages of suppressing the activity of this host enzyme, and to the possible source(s) of putative suppressive factors.     

Molecular components and toxicity of the venom of the solitary wasp, Anoplius samariensis

The solitary spider wasp, Anoplius samariensis, is known to exhibit a unique long-term, non-lethal paralysis in spiders that it uses as a food source for its larvae. However, neither detailed venom components nor paralytic compounds have ever been characterized. In this study, we examined the components in the low molecular weight fraction of the venom and the paralytic activity of the high molecular weight fraction. The major low molecular weight components of the venom were identified as gamma-aminobutyric acid and glutamic acid by micro-liquid chromatography/electrospray ionization mass spectrometry and nuclear magnetic resonance spectrometry analysis. The sodium dodecyl sulfate-polyacrylamide gel electrophoresis and mass analysis revealed that the A. samariensis venom contained the various proteins with weights of 4-100 kDa. A biological assay using Joro spiders (Nephila clavata) clearly showed that the high molecular weight fraction of the venom prepared by ultrafiltration exerted as potent non-lethal long-term paralysis as the whole venom, whereas the low molecular weight fraction was devoid of any paralytic activity. These results indicated that several venomous proteins in the high molecular weight fraction are responsible for the paralytic activity. Furthermore, we determined the primary structure of one component designated As-fr-19, which was a novel multiple-cysteine peptide with high sequence similarity to several sea anemone and snake toxins including dendrotoxins, rather than any insect toxic peptides identified so far. Taken together, our data showed the unprecedented molecular and toxicological profiles of wasp venoms.     

Anoplin, a novel antimicrobial peptide from the venom of the solitary wasp Anoplius samariensis.

A novel antimicrobial peptide, anoplin, was purified from the venom of the solitary wasp Anoplius samariensis. The sequence was mostly analyzed by mass spectrometry, which was corroborated by solid-phase synthesis. Anoplin, composed of 10 amino acid residues, Gly-Leu-Leu-Lys-Arg-Ile-Lys-Thr-Leu-Leu-NH2, has a high homology to crabrolin and mastoparan-X, the mast cell degranulating peptides from social wasp venoms, and, therefore, can be predicted to adopt an amphipathic alpha-helix secondary structure. In fact, the circular dichroism (CD) spectra of anoplin in the presence of trifluoroethanol or sodium dodecyl sulfate showed a high content, up to 55%, of the alpha-helical conformation. A modeling study of anoplin based on its homology to mastoparan-X supported the CD results. Biological evaluation using the synthetic peptide revealed that this peptide exhibited potent activity in stimulating degranulation from rat peritoneal mast cells and broad-spectrum antimicrobial activity against both Gram-positive and Gram-negative bacteria. Therefore, this is the first antimicrobial component to be found in the solitary wasp venom and it may play a key role in preventing potential infection by microorganisms during prey consumption by their larvae. Moreover, this peptide is the smallest among the linear alpha-helical antimicrobial peptides hitherto found in nature, which is advantageous for chemical manipulation and medical application.     

In vivo and in vitro activity of venom from the endoparasitic wasp Pimpla turionellae (L.) (Hymenoptera: Ichneumonidae)

The biological activity of venom from Pimpla turionellae L. (Hymenoptera: Ichneumonidae) was examined in vivo toward larvae and pupae of Galleriae mellonella L. (Lepidoptera: Pyralidae), and in vitro toward bacterial and fungal cultures, as well as cultured insect cells. Pupae of G. mellonella were far more susceptible to the venom than larvae. At low doses of venom [0.1 venom reservoir equivalents (VRE)], pupal abdominal mobility was inhibited within 30 min, and by 24 h, all pupae injected with venom concentrations >0.5 VRE were completely paralyzed. These same doses of venom resulted in an inhibition of adult emergence. Host larvae were far less sensitive to wasp venom as evidenced by all venom injected larvae remaining responsive to mechanical stimulation by 1 h post injection, even at concentrations equivalent to 1 venom reservoir. Eventually (>2 h at 25 degrees C), venom-injected larvae became immobile, then flaccid, and all died within 24 h post-injection. At lower concentrations of wasp venom, the onset of paralysis was delayed by comparison to that evoked by 1 VRE, and few host larvae were able to pupate. Development of host larvae to adult emergence was also reduced in a dose-dependent manner, with eclosion completely prevented at high concentrations (>0.5 VRE) of venom. Venom doses <0.5 VRE did not appear to induce paralysis or alter larval development. When venom was incubated with bacterial or fungal cultures, no antimicrobial activity was detected. However, wasp venom was found to be cytotoxic and cytolytic to cultured cells derived from the cabbage looper Trichoplusia ni Hubner (Lepidoptera: Noctuidae) and the yellow fever mosquito, Aedes aegypti (L.) (Diptera: Culcidae). Though both cell types displayed similar susceptibility in terms of LC50s, the lepidopteran cells responded much more rapidly with regard to the onset of morphological changes and the timing of cell death. A possible mode of action for the venom is discussed.     

Age and diet influence the composition of venom from the endoparasitic wasp Pimpla turionellae L. (Hymenoptera: Ichneumonidae)

Venom from the endoparasitic wasp Pimpla turionellae L. (Hymenoptera: Ichneumonidae) was found to contain a complex mixture of biogenic amines, noradrenalin, phospholipase B, and several proteins and peptides. The amount of noradrenalin and serotonin was found to be highest in venom from newly emerged wasps and decreased with age. Histamine was detected in minute amounts in comparison to the other venom components, and declined with increasing age of the parasitoids. Total peptides and proteins detected by reversed-phase HPLC increased with host age. Old-aged (30-33 days after emergence) wasps contained 2-fold more phospholipase B than young (<10 days [d] old) or medium-aged (10-22-d-old) females. Increases in phospholipase B alone, however, did not account for all changes in total venom protein because by 40 days after emergence, the levels of this enzyme began to decline while the amount of total protein was higher than in younger wasps. For all venom components detected, the amount present in the venom sharply decreased following host exposure. This was presumed to be the result of venom depletion associated with envenomation. Consistent with this view were the modest increases in venom components in wasps displaying a decreased rate of parasitization. When adult females were offered honey alone or in combination with feeding on hosts, no significant changes in venom composition were observed, with the exception of noradrenalin, which was found to be 5 times higher in concentration in wasps fed honey only. These results suggest that wasp age and incidence of parasitism are more important features influencing the composition of venom than the diet of adult females.     

丽蝇蛹集金小蜂Pacifastin蛋白酶抑制剂基因nvpp-1和nvpp-2的功能研究

Pacifastin蛋白酶抑制剂在昆虫免疫与发育中起着重要作用。为了明确其在寄生蜂中的相关功能, 本研究分别克隆获得编码丽蝇蛹集金小蜂Pacifastin蛋白酶抑制剂开放阅读框的cDNA序列nvpp-1和nvpp-2, 序列长度分别为723和888 bp, 分别编码240和295个氨基酸残基。预测结果表明, nvpp-1和nvpp-2推导氨基酸序列N端均含一个长度为17个氨基酸残基的信号肽序列。序列分析和进化树构建结果表明, NVPP-1和NVPP-2分别含有5个和4个典型的Pacifastin保守结构域, 并与疑黑瘤姬蜂Pimpla hypochondriaca毒液蛋白CVP4 聚为一类。实时荧光定量RT-PCR结果表明, nvpp-1和nvpp-2于该蜂雌蜂各组织中均发生转录, 且在胸、 腹部残体（解剖后腹部剩余部分）和毒器官中的转录水平较高; 于毒器官中, 其在羽化初期（0和1 d）转录水平较高, 其转录水平显著降低。Western blot结果表明, NVPP-1和NVPP-2均只在毒液中被大量检出, 在其他待测组织中均未被检出, 而刚羽化时（0 d）其在毒液中含量较低。利用pET-28a (+) 载体分别对nvpp-1和nvpp-2进行了原核表达, 并对重组表达产物进行纯化。分别测定重组NVPP-1和NVPP-2对4种不同丝氨酸蛋白酶（胰蛋白酶、 糜蛋白酶、 蛋白酶K和弹性蛋白酶）的抑制效果, 结果表明, 重组NVPP-1和NVPP-2分别能显著抑制糜蛋白酶和胰蛋白酶活性。同时还分别测定了两种重组蛋白对寄主家蝇蛹血淋巴自身的酚氧化酶活性及原酚氧化酶激活反应的影响, 结果表明, 重组蛋白对家蝇蛹血淋巴原酚氧化酶激活反应亦有抑制效果, 但其均不能显著影响血淋巴自身的酚氧化酶活性。综上所述, 丽蝇蛹集金小蜂毒液中含有Pacifastin蛋白酶抑制剂NVPP-1和NVPP-2, 分别为糜蛋白酶抑制剂和胰蛋白酶抑制剂家族成员, 均能显著影响寄主家蝇蛹血淋巴原酚氧化酶激活反应, 从而削弱寄主体液免疫水平。本研究所获结果加深了我们对昆虫尤其是寄生蜂Pacifastin蛋白酶抑制剂作用的认识。     

Regulation of phenoloxidase activity by high- and low-molecular-weight inhibitors from the larval hemolymph of Manduca sexta

Insect phenoloxidases (POs) generate quinones and other reactive intermediates to immobilize and kill invading pathogens and parasites. Due to the presumed cytotoxicity of these compounds, PO activity and its proteolytic activation have to be regulated as a local, transient reaction against nonself in order to minimize damage to the host tissues and cells. We identified a Manduca sexta cDNA encoding a polypeptide sequence with its carboxyl-terminal 33 residues similar to the housefly phenoloxidase inhibitor (POI). The recombinant POI, secreted into the Escherichia coli periplasmic space along with its fusion partner DsbC, was released by osmotic shock and isolated by nickel affinity chromatography. Following enterokinase digestion and protein separation, the POI was purified to near homogeneity in a soluble form which inhibited M. sexta PO at a high concentration. We then produced the inhibitor using a modified baculovirus-insect cell system and isolated the glycoprotein from the conditioned medium. Deglycosylation coupled with inhibition assay revealed that O-glycosylation only moderately increased its inhibitory activity. While this led us to speculate the role of Tyr(64) hydroxylation, we were unable to modify the recombinant protein with tyrosine hydroxylase or purify M. sexta POI (Tyr(64)dopa) from the larval plasma. Instead, we isolated a low-M(r), heat-stable compound which strongly inhibited PO. The wavelength of maximum absorbance is 257 nm for the inhibitor. These data suggest that the down-regulation of PO activity in M. sexta is achieved by two mechanisms at least.     

The effect of Habrobracon hebetor venom on the activity of the prophenoloxidase system, the generation of reactive oxygen species and encapsulation in the haemolymph of Galleria mellonella larvae

The cellular and humoral immune reactions in haemolymph of the wax moth Galleria mellonella larvae naturally injected by venom of ectoparasitic wasp Habrobracon hebetor were analyzed. A strong decline of phenoloxidase (PO) activity in the haemolymph and the number of haemocytes with PO activity of envenomated wax moth was observed. In addition, it has been shown that the rate of capsule melanization in the envenomated larvae was half that of the control. Also production of reactive oxygen species (ROS) in the haemolymph of envenomated larvae decreased. The obtained data casts light on the suppression of the main immune reactions in G. mellonella larvae during natural envenomation by H. hebetor.