Effect of Campoletis sonorensis ichnovirus cys-motif proteins on Heliothis virescens larval development

Polydnaviruses are obligate symbionts of some parasitic hymenopteran wasps responsible for modifying the physiology of their host lepidopteran larvae to benefit the endoparasite. Injection of Campoletis sonorensis ichnovirus (CsIV) into Heliothis virescens larvae alters larval growth, development and immunity but genes responsible for alterations of host physiology are not well described. Recent studies of polydnavirus genomes establish that these genomes encode families of related genes expressed in parasitized larvae. Here we evaluate five members of the CsIV cys-motif gene family for their ability to inhibit growth and development of lepidopteran larvae. To study the function of cys-motif proteins, recombinant proteins were produced from baculovirus expression vectors and injected or fed to H. virescens larvae in diet. rVHv1.1 was identified as the most potent protein tested causing a significant reduction in growth of H. virescens and Spodoptera exigua larvae. H. virescens larvae ingesting this protein also exhibited delayed development, reductions in pupation and increased mortality. Increased mortality was associated with chronic sub-lethal baculovirus infections. Taken together, these data indicate that the cys-motif proteins have pleiotropic effects on lepidopteran physiology affecting both development and immunity.     

Foraging behavior of Campoletis sonorensis in response to Heliothis virescens and cotton plants

Wind tunnel flight behavior of inexperienced female Campoletis sonorensis (Cameron) (Hymenoptera; Ichneumonidae) in response to its larval host Heliothis virescens (F.) (Lepidoptera: Noctuidae) feeding on the host plant cotton (Gossypium hirsutum L.) is described. The flight behavioral sequence was determined by quantification of frequencies of observed behaviors and probabilities of first-order behavioral transitions. Comparison of inexperienced C. sonorensis flights to undamaged and damaged cotton indicated that stimuli from undamaged plants alone are adequate to elicit the complete flight behavioral sequence observed in response to H. virescens feeding on cotton.Parasitoid foraging behavior was also analyzed after landing on the stimulus. This behavior appeared to be random in its initial stages, but became sequential after location of evidence of a host. Analysis of foraging on undamaged and 3 treatments of damaged cotton resulted in the determination that parasitoids tend to remain on damaged plants longer than undamaged plants although no significant difference was detected. C. sonorensis spent a greater percentage of their time foraging on host damaged plants than on undamaged plants.

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Résumé Les comportements d'évaluation de l'effectif d'hôtes potentiels et de la position des hôtes par C. sonorensis (Hyméno.: Iccheumonidae) ont été quantifiés pour déterminer les séquences significatives des événements comportementaux. La localisation de la colonie potentielle d'hôtes est apparue comme une séquence régulière des événements comportementaux. Une fois que le parasitoïde a localisé une colonie potentielle, on a constaté que la recherche au hasard des hôtes se poursuit jusqu'à ce qu'il ait la démonstration qu'il s'agit d'une plante attaquée. La localisation par le parasitoïde d'un hôte certain a consitué une autre séquence régulière des événements comportementaux terminant la localisation de l'hôte.L'influence de pieds de coton intacts, de pieds abîmés mécaniquement et de pieds occupés par des chenilles du 3ème stade de l'hôte et de plantes dont les chenilles ont été retirées juste avant l'expérience a été déterminée en modifiant la composition du complexe hôte/plante. Des femelles naïves de C. sonorensis ont montré en présence de pieds de coton intacts apparemment toutes les séquences comportementales de vol impliquées dans la localisation d'une colonie potentielle d'hôtes. Une fois que le parasitoïde a atteint la colonie potentielle d'hôtes, la présence de dégâts de l'hôte n'a pas modifié le temps passé sur la plante, mais a modifié le temps consacré à la prospection.

     

Stage-specific effects of Campoletis sonorensis parasitism on Heliothis virescens development and prothoracic glands

Abstract The ichneumonid endoparasitoid Campoletis sonorensis Cameron (Hymenoptera: Ichneumonidae) injects a polydnavirus when it oviposits into a host. We compared the development of Heliothis virescens (F.) (Lepidoptera: Noctuidae) larvae parasitized in the penultimate (fourth) stadium with those parasitized in the last (fifth) stadium by C.sonorensis and show that hosts stung in the fifth stadium exhibited arrested or delayed development compared to the controls. Parasitoids developed normally to the point of emergence in larvae stung in the fifth stadium but most did not successfully emerge from the host. The prothoracic glands in all successfully parasitized fifth stadium hosts and most unsuccessfully parasitized fifth stadium hosts showed some degree of virally-induced degeneration. Larvae stung in the fourth stadium developed more slowly than controls and either did not moult or developed to a fifth and sometimes a supernumerary sixth stadium before parasitoid emergence. Unsuccessfully parasitized hosts were delayed in their development but eventually moulted to the fifth and, in some cases, a supernumerary sixth stadium before pupating. Hosts stung in the fourth stadium showed no signs of prothoracic gland degeneration whether successfully parasitized or not. In addition, calyx fluid injections into early fourth stadium hosts did not cause prothoracic gland degeneration even after these hosts moulted to the fifth stadium, suggesting that degeneration induced by polydnavirus is specific to the last stadium of the host.     

Expression and hemocyte-targeting of a Campoletis sonorensis polydnavirus cysteine-rich gene in Heliothis virescens larvae

The polydnavirus associated with the parasitic wasp Campoletis sonorensis is injected into the lepidopteran insect, Heliothis virescens, during parasitization, after which viral gene products suppress the cellular immune system of the hosts. Four related cysteine-rich polydnavirus genes have been identified in parasitized H. virescens larvae and grouped into a family. In this study, we investigated the expression and hemocyte targeting of the cysteine-rich Vhv1.4 protein. Full- length and truncated Vhv1.4 proteins were produced in a bacterial expression system, and the purified proteins were used to raise polyclonal antisera. In immunoblots the Vhv1.4 protein was detected in parasitized insects as early as 6 h and throughout the entire course of parasitism. The Vhv1.4 protein appeared predominantly in the plasma fraction of hemolymph from parasitized larvae, suggesting that this protein is secreted. The Vhv1.4 protein expressed from a recombinant baculovirus was secreted in two lepidopteran cell lines and in larvae injected with the recombinant virus. Digestion with endoglycosidases suggests that the Vhv1.4 protein is glycosylated at multiple N-glycosylation sites. Immunofluorescence assays showed that the Vhv1.4 protein binds to the hemocytes, most notably the granulocytes, in H. virescens larvae. After binding, the Vhv1.4 protein was internalized, probably by endocytosis. Specific binding of the Vhv1.4 to granulocytes implies an important function in the suppression of host cellular encapsulation response. Arch. Insect Biochem. Physiol. 36:251–271, 1997. © 1997 Wiley-Liss, Inc.     

Dose-dependent influence of Campoletis sonorensis polydnavirus on the development and ecdysteroid titers of last-instar Heliothis virescens larvae

Campoletis sonorensis calyx fluid arrests the development of last-instar Heliothis virescens larvae and is associated with the gross degeneration of the host's prothoracic glands. Through manipulations of ovary supernatant, Campoletis sonorensis polydnavirus (CsV) was found to be the only component of calyx fluid responsible for causing host developmental arrest. Venom from C. sonorensis had no effect on host development. Suspensions of CsV were quantified, and various doses were injected into last-instar hosts. The percentage of larvae developmentally arrested was dose dependent. In addition, larvae not arrested by injection with CsV suspensions were developmentally delayed in a dose-dependent manner. Hosts were delayed in the stage in which they were injected and, after recovery, developed at normal rates. Measurements by radioimmunoassay indicated that developmental delay was due to a suppression of ecdysteroid titers. After a dose-dependent period of suppression, hemolymph ecdysteroid titers recovered and reached titers comparable to those observed in saline-injected controls. Examination of prothoracic glands from developmentally delayed larvae revealed that partial degeneration occurred. Comparisons of the number and mean size of surviving gland cells and the length of developmental delay suggested that surviving gland cells may compensate for degenerated cells by increasing their ecdysone production.     

Induction of a new haemolymph glycoprotein in larvae of permissive hosts parasitized by Campoletis sonorensis

Parasitization by Campoletis sonorensis consistently results in the appearance of a new polypeptide, a glycoprotein, in several habitual host species. This occurs prior to the hatching of parasitoid eggs, and can be duplicated by the injection of either calyx fluid or purified C. sonorensis virus. Oviposition in two non-permissive hosts. Anticarsia gemmatalis and Mamestra configurata, leaves haemolymph polypeptide profiles unchanged.     

Interference with function of plasmatocytes of Heliothis virescens in vivo by calyx fluid of the parasitoid Campoletis sonorensis

Summary Immature stages of the ichneumonid parasitoid, Campoletis sonorensis, develop within the haemocoel of its noctuid host, Heliothis virescens. The host cannot encapsulate the parasitoid egg owing to the suppressive effect of the polydnavirus-laden calyx fluid injected by the female parasitoid during oviposition. We have examined the effects of injection of calyx fluid on the following haemocytic manifestations of the immune system of 5th-instar larvae of H. virescens: encapsulation, nodulation, phagocytosis, erythrocyte rosetting and coagulation. Of these phenomena, only those requiring the formation of a multicellular sheath of plasmatocytes were affected. In general, encapsulation was fully suppressed; all of the C. sonorensis eggs and most of the glass rods implanted as targets were devoid of attached haemocytes 3 days after implantation although a few of the latter were coated by a sparsely distributed layer of granulocytes. Plasmatocytes also appeared to be present in thicker depositions of haemocytes. In nodulation, only the second, encapsulation-like phase was inhibited. The resistant first stage, involving the entrapment of particles by haemocytes, only resulted in the formation of amorphous, disorganized nodules. Granulocyte-dependent aspects of the immune system (phagocytosis, rosetting and possibly coagulation and the first stage of encapsulation and nodulation) occurred normally. The data suggest that in 5th-instar hosts injection of calyx fluid acts specifically on plasmatocyte function.     

Ecdysteroid-titre reduction and developmental arrest of last-instar Heliothis virescens larvae by calyx fluid from the parasitoid Campoletis sonorensis

Fifth-instar Heliothis virescens larvae did not pupate after injections of Campoletis sonorensis calyx fluid in or before the burrow-digging stage of development. Arrested development occurred in 40% of larvae injected at the cell-formation stage. Further experiments showed that the particles in calyx fluid were responsible for developmental arrest. Arrested development due to calyx fluid could be reversed by injecting 10 μg of either ecdysone or 20-hydroxyecdysone, although a second injection of 20-hydroxyecdysone was needed for some larvae 3 days after the first treatment. Ecdysteroid production ceased for up to 10 days in 5th-instar H. virescens after calyx-fluid injection. After 10 days, some experimental larvae began to produce ecdysteroids again but remained developmentally arrested. The head, thorax, or abdomen of larvae were isolated by ligations and calyx fluid injected into the isolated body region. After 24 h, ligatures were released and the larvae observed for developmental arrest. Only injections into the isolated thorax stopped development. This, along with ecdysteroid data, indicated that C. sonorensis calyx fluid may directly affect the prothoracic glands of 5th-instar H. virescens.     

Identification, Mapping, and In Vitro Translation of Campoletis sonorensis Virus mRNAs from Parasitized Heliothis virescens Larvae

Expression of Campoletis sonorensis virus (CsV) in parasitized Heliothis virescens larvae was investigated by Northern blot analysis of poly(A)⁺ mRNAs isolated from H. virescens larvae at various times after parasitization by C. sonorensis. At least 12 CsV mRNAs were detected in parasitized H. virescens larvae. Injection of nonparasitized H. virescens larvae with purified CsV resulted in a pattern of viral mRNAs similar to that observed in naturally parasitized larvae. With CsV DNA restriction fragments which contained expressed sequences, individual CsV mRNAs were mapped to the superhelical DNAs of the viral genome. Two gene-specific probes, which consisted of cloned S1 nuclease-protected restriction fragments, each hybridized to several CsV superhelical DNAs, suggesting that some CsV genes may be shared on several superhelical DNAs. Cloned restriction fragments containing sequences which flank the expressed sequences also hybridized to numerous CsV superhelical DNAs. Some CsV proteins were identified by in vitro translation of hybrid-selected CsV mRNAs.     

Changes in differential haemocyte count and in vitro behaviour of plasmatocytes from host Heliothis virescens caused by Campoletis sonorensis polydnavirus

Campoletis sonorensis is a habitual parasitoid of 3rd-instar larvae of Heliothis virescens. C. sonorensis eggs and small glass rods were encapsulated in 5th-instar host larvae implanted in the absence of wasp calyx fluid; prior injection of calyx fluid into larvae suppressed the encapsulation response. Within 8 h of calyx fluid injection there was a removal of approx. 75% of the circulating capsule-forming haemocytes (plasmatocytes). The remaining subpopulation of plasmatocytes, in addition to being incapable of encapsulating targets in vivo, spread at a significantly reduced rate in vitro. Identical changes in plasmatocyte count and behaviour were observed after injection of virus purified from calyx fluid. Additionally, the activity of calyx fluid was abolished after ultraviolet irradiation. The onset of haemocytic abnormalities occurred more rapidly after natural parasitism of 3rd-instar host larvae. The cell-free haemolymph of calyx fluid-injected 5th-instar larvae also retarded the spreading of plasmatocytes from non-injected control larvae in vitro. We conclude that the abnormalities induced in H. virescens plasmatocytes by C. sonorensis virus contribute to the suppression of encapsulation.     

Cardiochiles nigriceps polydnavirus: molecular characterization and gene expression in parasitized Heliothis virescens larvae

Cardiochiles nigriceps Viereck is an endophagous parasitoid of larval stages of the tobacco budworm, Heliothis virescens (F.). This hymenopteran parasitoid, belonging to the family Braconidae, is associated with a polydnavirus (CnPDV), injected at oviposition along with the egg. The infection of various tissues by CnPDV determines the suppression of the host immune system and the developmental arrest of mature host larvae. In this study, CnPDV has been characterized at the structural and molecular level. The negatively stained nucleocapsids show evident ‘end structures’ and a tail-like appendage. The CnPDV genome is typically segmented, with circular dsDNA molecules, ranging in size from 2.5 kb to more than 23 kb. The early expression pattern of CnPDV in parasitized hosts has been analysed and viral clones, genomic and cDNAs, identifying genes expressed within 48 h after parasitization have been isolated. The molecular organization of one of these genes, named CnPDV1, and its putative protein product have been determined. Significant sequence homologies with other known proteins were not detected. In situ hybridization experiments indicated that this gene is expressed in the prothoracic glands of parasitized host mature larvae. A functional analysis of CnPDV1 gene product is required to assess its possible role in the regulation of parasitoid-induced alterations of host larvae.     

Phenoloxidase activity in the haemolymph of parasitized and unparasitized Heliothis virescens

Hymenopterous parasitoids of Heliothis virescens are able to evade the immune mechanisms of their host, especially the ability of the host to encapsulate foreign objects within a haemocyte capsule. This encapsulation is often accompanied by melanization. Our present findings show that hosts parasitized by Microplitis croceipes, Cardiochiles nigriceps and Campoletis sonorensis show changes both in the amount of melanin formed when their haemolymph is exposed to air and in the total protein as determined by the Folin phenol reagent. Furthermore, these changes are promoted by each of the three parasitoids in a different way. However, none of these parasitoids was able to alter the levels of host phenoloxidase as measured by the ability of the haemolymph to convert 4-methylcatechol to its quinone. The hymenopteran egg must therefore escape encapsulation in Heliothis in a way other than through inhibition of phenoloxidase, since the melanization reactions in the host's haemolymph are apparently unimpaired, particularly during the egg stage, by either the egg or venom of any one of the three parasitoids.     

Effect of parasitism on a nucleopolyhedrovirus amplified in Spodoptera frugiperda larvae parasitized by Campoletis sonorensis

We evaluated the consequences of parasitism by the solitary ichneumonid endoparasitoid Campoletis sonorensis(Cameron) towards the replication, genetic composition and virulence of a nucleopolyhedrovirus (Baculoviridae) originating from Spodoptera frugiperda(J. E. Smith) larvae. Parasitism by C. sonorensisand viral infection of third and fourth instar S. frugiperdalarvae resulted in reduced growth compared with nonparasitized control larvae. A positive correlation was observed between virus yield and larval instar at the moment of infection. When larvae were virus-inoculated in the fourth instar, parasitism resulted in a significant reduction in mean per capita virus yield compared to the virus yield from nonparasitized larvae. In an experiment involving 10 serial passages of virus in both parasitized and nonparasitized larvae, restriction endonuclease analysis of viral DNA amplified in nonparasitized larvae revealed the presence of the wild-type virus as well as three additional variants (A, B, and C) diagnosed by the presence of novel submolar PstI fragments of different sizes. In contrast, analysis of viral DNA from parasitized larvae showed the presence of the wild-type virus and two other variants (E and F), each characterized by a different submolar BglII fragment. Southern blot analysis indicated that the submolar fragments of variants E and F contained sequences originating from the viral genome. Bioassay of the different virus variants in S. frugiperdalarvae indicated that their virulence was equal or less than that of the wild-type virus. We conclude that parasitism can affect the quantity of virus produced in dually infected and parasitized larvae, but no adverse effects were detected in terms of the biological activity of the virus.     

In vitro rearing of Campoletis sonorensis, a larval endoparasitoid of Heliothis virescens from egg to third instar in an artificial medium devoid of insect sources

Campoletis sonorensis is a solitary larval endoparasitoid of several Heliothis spp. pests. This study was carried out to develop media devoid of insect sources for in vitro rearing the parasitoid. Trehalose, lysine, threonine, asparagine, glutamine, hydroxyproline, serine, bovine serum albumin, and lactalbumin were beneficial to C. sonorensis. Addition of fresh chicken egg yolk at a low level improved the artificial media. Addition of 20-hydroxyecdysone increased the molting rate, reduced the critical size at molt and decreased development time. Parasitoid development in vitro was dependent on eggs that had been in the host for at least 22 h. Luminosity was also critical for the development of C. sonorensis in vitro. Optimal development occurred in a L14:D10 photoperiod at 43 Lux light intensity. Utilizing the best media and conditions, 100% of the parasitoid larvae reached the second instar and over 37% molted to the third instar. However, no further development occurred.     

Developmental and hormonal regulation of midgut remodeling in a lepidopteran insect, Heliothis virescens

Midgut tissue undergoes remodeling during metamorphosis in insects belonging to orders Lepidoptera and Diptera. We investigated the developmental and hormonal regulation of these remodeling events in lepidopteran insect, Heliothis virescens. In H. virescens, programmed cell death (PCD) of larval midgut cells as well as proliferation and differentiation of imaginal cells began at 108 h after ecdysis to the final larval instar (AEFL) and proceeded through the pupal stages. Expression patterns of pro- cell death factors (caspase-1 and ICE) and anti-cell death factor, Inhibitor of Apoptosis (IAP) were studied in midguts during last larval and pupal stages. IAP, Caspase-1 and ICE mRNAs showed peaks at 48 h AEFL, 96 h AEFL and in newly formed pupae, respectively. Immunohistochemical analysis substantiated high caspase-3 activity in midgut at 108 h AEFL. Application of methoprene, a juvenile hormone analog (JHA) blocked PCD by maintaining high levels of IAP, downregulating the expression of caspase-1, ICE and inhibiting an increase in caspase-3 protein levels in midgut tissue. Also, the differentiation of imaginal cells was impaired by methoprene treatment. These studies demonstrate that presence of JHA during final instar larvae affects both midgut remodeling and larval-pupal metamorphosis leading to larval/pupal deformities in lepidopteran insects, a mechanism that is different from that in mosquito, Ae. aegypti where JHA uncouples midgut remodeling from metamorphosis.