Transcriptomic response of Manduca sexta immune tissues to parasitization by the bracovirus associated wasp Cotesia congregata.

During oviposition, Cotesia congregata parasitoid wasps inject into their host, Manduca sexta, some biological factors such as venom, ovarian fluid and a symbiotic polydnavirus (PDV) named Cotesia congregata bracovirus (CcBV). During parasitism, complex interactions occur between wasp-derived factors and host targets that lead to important modifications in host physiology. In particular, the immune response leading to wasp egg encapsulation is inhibited allowing wasp survival. To date, the regulation of host genes during the interaction had only been studied for a limited number of genes. In this study, we analysed the global impact of parasitism on host gene regulation 24 h post oviposition by high throughput 454 transcriptomic analyses of two tissues known to be involved in the host immune response (hemocytes and fat body). To identify specific effects of parasitism on host transcription at this time point, transcriptomes were obtained from non-treated and parasitized larvae, and also from larvae injected with heat-killed bacteria and double stimulated larvae that were parasitized prior to bacterial challenge. Results showed that, immune challenge by bacteria leads to induction of certain antimicrobial peptide (AMP) genes in M. sexta larvae whether they were parasitized or not prior to bacterial challenge. These results show that at 24 h post oviposition pathways leading to expression of AMP genes are not all inactivated suggesting wasps are in an antiseptic environment. In contrast, at this time point genes involved in phenoloxidase activation and cellular immune responses were globally down-regulated after parasitism in accordance with the observed inhibition of wasp egg encapsulation.

A technique of segment expression and RNA interference (SERI) reveals a specific physiological function of a cysteine-rich protein gene encoded in cotesia plutellae bracovirus.

As a provirus, polydnavirus has a segmented DNA genome on chromosome(s) of host wasp. It contains several genes in each segment that presumably play critical roles in regulating physiological processes of target insect parasitized by the wasp. A cysteine-rich protein 1 (CRP1) is present in the polydnavirus Cotesia plutellae bracovirus (CpBV) genome, but its expression and physiological function in Plutella xylostella parasitized by the viral host C. plutellae is not known. This CpBV-CRP1 encoding 189 amino acids with a putative signal peptide (20 residues) was persistently expressed in parasitized P. xylostella with gradual decrease at the late parasitization period. Expression of CpBV-CRP1 was tissue-specific in the fat body/epidermis and hemocyte, but not in the gut. Its physiological function was analyzed by inducing transient expression of a CpBV segment containing CpBV-CRP1 and its promoter, which caused significant reduction in hemocyte -spreading and delayed larval development. When the treated larvae were co-injected with double-stranded RNA of CpBV-CRP1, the expression of CpBV-CRP1 disappeared,whereas other genes encoded in the CpBV segment was expressed. These co-injected larvae significantly recovered the hemocyte-spreading capacity and larval development rate. This study reports that CpBV-CRP1 is expressed in P.xylostella parasitized by C.plutellae and its physiological function is to alter the host immune and developmental processes.

Identification of host translation inhibitory factor of Campoletis sonorensis ichnovirus on the tobacco budworm, Heliothis virescens.

Parasitization of a wasp, Campoletis sonorensis, against the larvae of Heliothis virescens depresses synthesis of specific host proteins related to growth and immunity. It has been suggested that the inhibition of host gene expression is targeted at a posttranscriptional level. This study aimed to verify the identity of host translation inhibitory factor (HTIF) derived from wasp parasitization. To identify HTIF, the proteins in the parasitized host were fractionated using different protein purification methods, and each fraction's HTIF activity was assessed. In the course of the protein purification steps, HTIF activity was highly correlated with the fractions containing VHv 1.4 protein, which has a conserved cysteine-motif and is encoded in C. sonorensis ichnovirus (CsIV). Purified VHv 1.4 protein using an immunoaffinity column exhibited a significant HTIF effect, while the heat-inactivated VHv 1.4 did not. Both recombinant VHv 1.4 and VHv 1.1 (another cys-motif protein encoded in CsIV) proteins were synthesized in Sf 9 cells through a baculovirus expression system. The purified recombinant VHv 1.4 and VHv 1.1 exhibited significant HTIF activities in a nanomolar range. However, VHv1.4 protein showed about four times higher HTIF activity than did VHv 1.1 protein. Both HTIFs acted directly on translation machinery because they inhibited a cell-free in vitro translation system using rabbit reticulocyte lysate. Both HTIFs are likely to discriminate specific target mRNAs because they inhibited translation of RNA extracts from the Tn 368 cell line, but not from Sf 9 cells. In addition, they inhibited translation of RNAs from fat body, hemocytes, and testis, but not from epidermis, gut, labial gland, and nerve tissues of H. virescens. These results indicate that both cys-motif proteins of VHv 1.4 and VHv 1.1 play a role as HTIF in C. sonorensis parasitization.

Evolution of polydnaviruses as insect immune suppressors.

Polydnaviruses (PDVs) are endogenous particles that are used by some endoparasitic hymenoptera to disrupt host immunity and development. Recent analyses of encapsidated PDV genes have increased the number of known PDV gene families, which are often closely related to insect genes. Several PDV proteins inactivate host haemocytes by damaging their actin cytoskeleton. These proteins share no significant sequence homology and occur in polyphyletic PDV genera, possibly indicating that convergent evolution has produced functionally similar immune-suppressive molecules causing a haemocyte phenotype characterised by damaged cytoskeleton and inactivation. These phenomena provide further insights into the immune-suppressive activity of PDVs and raise interesting questions about PDV evolution, a topic that has puzzled researchers ever since the discovery of PDVs.

Mechanism of reduction in the number of the circulating hemocytes in the Pseudaletia separata host parasitized by Cotesia kariyai.

Larval endoparasitoids can avoid the immune response of the host by the function of polydnavirus (PDV) and venom. PDV infects hemocytes and affects the hemocyte function of the host. In this paper, we investigated how PDV and venom affect the hemocyte population of the host. Cotesia kariyai, the larval endoparasitoid, lowers the hemocyte population of the noctuid host larvae soon after parasitization. The reduction in the number of circulating hemocytes is caused by the breakdown of the circulating hemocytes and of the hematopoietic organ which generates the circulating hemocytes. The decrease in the number of hemocytes shortly after parasitization is a response to the venom. However, the decrease in hemocyte population on and after 6 h post-parasitization appears to be caused by the PDV. Apoptosis in circulating hemocytes was observed on and after 6 h post-injection of PDV plus venom. It was revealed through cytometry that mitosis of circulating hemocytes was halted within 24 h after the injection of PDV plus venom. Apoptosis in the hematopoietic organ was induced 12 h after the injection of PDV plus venom. Furthermore, the plasma from the hosts injected with PDV plus venom depressed the number of hemocytes released from the hemotopoiteic organs.

Polydnavirus of Campoletis chlorideae: characterization and temporal effect on host Helicoverpa armigera cellular immune response.

Polydnavirus was isolated from oviduct calyx in the parasitoid wasp Campoletis chlorideae (Hymenoptera: Ichneumonidae), and termed CcIV. The virus particles consist of fusiform nucleocapsids surrounded by two unit membrane envelopes. The DNAs purified from these viruses were found diversified in molecular weight and existed in nonequimolar concentrations. At least 20 different-sized bands were present after electrophoresis, and they ranged from approximately 3 to 26 kb. Persistence and gene expression of CcIV were examined in parasitized and virus-injected Helicoverpa armigera larvae. Viral DNA could be detected in the hemocyte of H. armigera at 30 min post-parasitization (p.p.), and persisted for 6 days. While no viral DNA increase was found, CcIV transcripts were first detected in host hemocytes at day 1 p.p. and continued for 5 days. Similar transcripts were observed in hemocytes from larvae that had been injected with calyx fluid or CcIV 24 h earlier. CcIV viral DNAs hybridized only with certain first-strand cDNAs from hemocytes, suggesting that only part of the CcIV genome was expressed in H. armigera. The pattern of CcIV gene expression was consistent with that of the inhibition of encapsulation for Sephadex G-10 and parasitoid eggs by host larvae. The recovery of host immune response at day 4 p.p. indicated that CcIV exhibited a partial and temporal effect on the host immune system and the developing parasitoid appeared to avoid encapsulation via different mechanisms.

Detailed characterization of polydnavirus immunoevasive proteins in an endoparasitoid wasp.

Polydnaviruses are a unique group of insect viruses in terms of their obligate and symbiotic associations with some parasitic wasps. The Cotesia kariyai polydnavirus (CkPDV) replicates only in ovarian calyx cells of C. kariyai female wasps and is injected into the wasp's host, the armyworm Pseudaletia separata, along with the eggs. A previous study indicated the possibility that one of the CkPDV surface proteins mediates immunoevasion by the wasp from the encapsulation reaction of the host insect's hemocytes. This protein was named immunoevasive protein (IEP). The present studies substantially confirmed the previous observation by showing that an anti-IEP IgG neutralizes immunoevasive activity on the wasp eggs. Further, we isolated the IEP homologue (IEP-2) cDNA and IEP (IEP-1) cDNA, sequenced them and found that both are cysteine-rich proteins, each containing epidermal growth factor (EGF)-like repeats. IEP genes were not found to reside in the CkPDV genome, but in the wasp chromosomal DNA. IEPs are synthesized in the female reproductive tract and their expression was detected from 4 days after pupation, 1 day later than expression of the virus capsid proteins. In situ hybridization and immunocytochemistry indicated that the lateral oviduct cells of the reproductive tracts produce IEP-1/IEP-2 mRNAs and secrete the proteins into the oviduct. These data suggest that the expression pattern and localization of IEPs are different from other components of CkPDV virions.

Envelope protein of parasitic wasp symbiont virus, polydnavirus, protects the wasp eggs from cellular immune reactions by the host insect.

Cotesia kariyai polydnavirus (CkPDV) virions are present in the oviducts of C. kariyai wasp and are injected with eggs into the hemocoel of the host armyworm Pseudaletia separata larvae during parasitization. Evidence that the presence of polydnavirus particles on the surface of the wasp eggs may be essential for prevention of cellular immune reactions by the host hemocytes was obtained by isolating an immunoevasive factor from CkPDV virions. The purified proteinaceous factor protects foreign materials from adhesion and encapsulation by hemocytes of the host P. separata larvae but not by those of common cutworm Spodoptera litura larvae which is an incompatible host for the C. kariyai wasp. Purification procedures consisted of extraction with ethanol/trifluoroacetic acid and reverse-phase high performance liquid chromatography. A factor with a molecular mass of approximately 50 kDa is demonstrated to be present on the envelope of CkPDV virion by immunoelectronmicroscopic observations. Furthermore, immunoreactive proteins are found in plasma of the armyworm larvae but not in the common cutworm larvae, indicating that only the natural host of C. kariyai wasp shares a similar epitope with CkPDV. The sequence of 23 amino acid residues at the amino terminus of the factor was determined to be Ile-Ser-Val-Glu-Asn-Val-Xaa-Thr-Thr-Gly-Ile-Phe-Leu-Asp-Ser-Gly-Glu-Xaa- Val- Pro-Tyr-Ala-Thr-Lys-Pro.

Characterization of a novel protein associated with the parasitization of lepidopteran hosts by an endoparasitic wasp.

We report basic biochemical characteristics of a parasitism-specific protein (PSP) expressed in hosts (Trichopluisa ni) of a parasitic wasp (Chelonus near curvimaculatus). Size exclusion HPLC and SDS-PAGE analysis of cross-linked products indicated the native conformation of the protein is as a monomeric polypeptide with an estimated M(r) of 185,000. Resolution by non-denaturing PAGE revealed two major PSP bands with different charges, PSP-1 and PSP-2, each of which corresponded to several isoforms on native IEF with a pl range of 4.57-5.45. Sequences for the N-terminus region and internal peptides after fragmentation of purified preparations of PSP-1 and PSP-2 did not resemble the sequence of any reported protein. Immunological characterization of PSP using antibodies generated against virus proteins from C. near curvimaculatus female wasps revealed that PSP shares a common epitope(s) with some structural components of the wasp polydnavirus.