Ana I. Soldevila

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 gene 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.

Relationships between polydnavirus gene expression and host range of the parasitoid wasp Campoletis sonorensis.

To evaluate the relationship between immune suppression and host range six lepidopteran species were parasitized by the ichneumonid parasitoid Campoletis sonorensis. Parasitism inhibited the growth of permissive hosts (Heliothis virescens, Helicoverpa zea, and Trichoplusia ni), whereas growth of semi-permissive (Spodoptera exigua, Agrotis ipsilon) and non-permissive hosts (Manduca sexta) was not significantly affected. The 29-36 kDa ovarian protein (OP), responsible for transient immunosuppression in the permissive host H. virescens, bound to and was endocytosed by hemocytes of permissive and non-permissive hosts. Expression of the cysteine-rich polydnavirus gene, VHv1.4, was detected in all the hosts, but declined only in semi- and non-permissive hosts at later times after parasitization. The VHv1.4 protein bound to hemocytes of permissive and semi-permissive hosts, but did not bind to hemocytes of the non-permissive host, M. sexta. Melanization of larval hemolymph was severely inhibited by parasitism in permissive hosts, but was unaffected in M. sexta. In the semi-permissive host, A. ipsilon, hemolymph melanization was transiently inhibited while viral genes were expressed. In conclusion, C. sonorensis OP transiently inhibits encapsulation in all hosts that were tested. The host range of C. sonorensis seems to be determined by whether or not the C. sonorensis ichnovirus (CsIV) is able to establish persistent infections of parasitized larvae to provide long-term suppression of host immunity.

Expression of the Totivirus Helminthosporium victoriae 190S Virus RNA-Dependent RNA Polymerase from Its Downstream Open Reading Frame in Dicistronic Constructs

ABSTRACT The undivided double-stranded RNA (dsRNA) genome ofHelminthosporium victoriae 190S virus (Hv190SV) (genusTotivirus) consists of two large overlapping open reading frames (ORFs). The 5′-proximal ORF encodes a capsid protein (CP), and the downstream, 3′-proximal ORF encodes an RNA-dependent RNA polymerase (RDRP). Unlike the RDRPs of some other totiviruses, which are expressed as a CP-RDRP (Gag-Pol-like) fusion protein, the Hv190SV RDRP is detected only as a separate, nonfused polypeptide. In this study, we examined the expression of the RDRP ORF fused in frame to the coding sequence of the green fluorescent protein (GFP) in bacteria andSchizosaccharomyces pombe cells. The GFP fusions were readily detected in bacteria transformed with the monocistronic construct RDRP:GFP; expression of the downstream RDRP:GFP from the dicistronic construct CP-RDRP:GFP could not be detected. However, fluorescence microscopy and Western blot analysis indicated that RDRP:GFP was expressed at low levels from its downstream ORF in the dicistronic construct in S. pombe cells. No evidence that the RDRP ORF was expressed from a transcript shorter than the full-length dicistronic mRNA was found. A coupled termination-reinitiation mechanism that requires host or eukaryotic cell factors is proposed for the expression of Hv190SV RDRP.

A novel alcohol oxidase/RNA-binding protein with affinity for mycovirus double-stranded RNA from the filamentous fungus Helminthosporium (Cochliobolus) victoriae: molecular and functional characterization.

We have cloned and sequenced a novel alcohol oxidase (Hv-p68) from the filamentous fungusHelminthosporium (Cochliobolus)victoriae that copurifies with mycoviral double-stranded RNAs. Sequence analysis revealed that Hv-p68 belongs to the large family of FAD-dependent glucose methanol choline oxidoreductases and that it shares significant sequence identity (>67%) with the alcohol oxidases of the methylotrophic yeasts. Unlike the intronless alcohol oxidases from methylotrophic yeasts, a genomic fragment of the Hv-p68 gene was found to contain four introns. Hv-p68, purified from fungal extracts, showed only limited methanol oxidizing activity, and its expression was not induced in cultures supplemented with methanol as the sole carbon source. Northern hybridization analysis indicated that overexpression of Hv-p68 is associated with virus infection, because significantly higher Hv-p68 mRNA levels (10- to 20-fold) were detected in virus-infected isolates compared with virus-free ones. We confirmed by Northwestern blot analysis that Hv-p68 exhibits RNA binding activity and demonstrated that the RNA-binding domain is localized within the N-terminal region that contains a typical ADP-binding β-α-β fold motif. The Hv-p68 gene, or closely similar genes, was present in all species of the genusCochliobolus but absent in the filamentous fungus,Penicillium chrysogenum, as well as in two nonmethylotrophic yeasts examined. This study represents the first reported case that a member of the FAD-dependent glucose methanol choline oxidoreductase family, Hv-p68, may function as an RNA-binding protein.

Purification and analysis of a polydnavirus gene product expressed using a poly-histidine baculovirus vector

The VHv1.1 polydnavirus gene has been implicated in suppressing the encapsulation response in parasitized insects [Li and Webb (1994) J. Virol. 68, 7482-7489]. In order to characterize this gene product and to further our analysis of its immunosuppressive function, we expressed the VHv1.1 using a custom-designed C-terminal poly-histidine baculovirus vector which allows for high expression and single-step purification of the protein. The 34 kDa VHv1.1 protein was expressed in baculovirus-infected cell cultures and in H. virescens larvae. Highly enriched preparations of the secreted VHv1.1 protein were obtained after affinity chromatography using a NTA-(Ni2+) resin. Characterization with purified preparations of the VHv1.1 protein established that the protein is N-glycosylated, containing glycogroups which are PNGase F-sensitive but Endo H-resistant. The recombinant VHv1.1 protein bound to hemocytes in vitro and in vivo and was endocytosed in a manner similar to the native protein produced in CsPDV-infected larvae.

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.

Immunoanalysis of unique protein in Trichoplusia ni larvae parasitized by the braconid wasp Chelonus near curvimaculatus

Abstract Parasitization in insects brings about profound biochemical and physiological effects in the host which may include complete overriding of the normal endocrinological program, resulting in precocious metamorphosis and in blockage of pupal development. The subtle effects of parasitization include changes in the expression of hemolymph proteins and the appearance of proteins which are unique to parasitized hosts. One such protein has been identified in the hemolymph of Trichoplusia ni larvae parasitized by the braconid wasp Chelonus near curvimaculatus. In this study, purified preparations of the parasitism-specific protein were used to generate polyconal antibodies against the protein. Results from the immunocharacterization indicate the antibodies obtained are highly specific for the protein and are present in a high titer (1:8000 antiserum dilution yielded strong signals in analysis of the protein in 0.25 μl hemolymph). Subsequently, the expression of the parasitism-specific protein in the hemolymph and tissues was analyzed by immunoblotting during the entire course of development in normal and parasitized insects. The parasitism-specific protein was not detected in normal, unparasitized larvae. In parasitized insects, expression of the parasitism-specific protein appears to be stage-specific in that it is only detected during the last larval stadium of precociously metamorphosing larvae, but is absent from all earlier stages of development.

Expression of polydnavirus genes under polydnavirus promoter regulation in insect larvae infected with baculovirus recombinants.

We have evaluated the use of baculoviruses to deliver Campoletis sonorensis polydnavirus (CsPDV) genomic DNA into lepidopteran larvae to facilitate the identification of functional CsPDV genes. Genomic fragments consisting of regulatory (promoter) and coding sequences for two CsPDV genes (VHv1.1 and WHv1.6) were used to generate CsPDV-baculovirus recombinants and evaluate the expression of genes under the regulation of the CsPDV promoters. Northern blot and primer extension studies established that CsPDV genes were expressed under the control of their own promoters in these CsPDV-baculovirus recombinants. Transcripts were detected as early as 4 h post-infection indicating that temporal activity of CsPDV promoters was retained. The VHv1.1 gene product as expressed from CsPDV-baculovirus recombinants was identical in size and in functional properties to that produced in CsPDV-infected insects. CsPDV-baculovirus recombinants may be useful for the screening and characterization of polydnavirus genes with functional activities that can only be evaluated in insect larvae.