Stephen Valas

Characterisation of an Irish caprine lentivirus strain - SRLV phylogeny revisited.

Small ruminant lentiviruses (SRLV), i.e. caprine arthritis-encephalitis virus (CAEV) (which infects goats) and maedi-visna virus (MVV) (which infects sheep) are two closely related lentiviruses but the relationship between goat and sheep lentiviruses has not been clearly established. To better understand their genetic relationship, we reinvestigated the phylogeny of SRLV using new sequences from an Irish and a Norwegian strain together with sequences available from databases. The phylogenetic analyses were carried out on the gag, pol and env fragments using four methods: neighbor-joining (NJ), Fitch and Margoliash (Fitch), Fitch and Wagner parsimony (Pars) and maximum likelihood (ML). The tree topologies were consistent whether derived from any of the four methods or any of the gene fragments, but the phylogenetic analyses in the pol and env regions were more informative than in the gag region. The Tamura-Nei model with variable rates across sites (described by a gamma distribution) provides a more accurate description of SRLV evolution than simple methods. The newly described Irish lentivirus strain, which was isolated from a goat, was closely related to the lentivirus that infects sheep: MVV. The novel Norwegian CAEV strain belonged to a cluster specific to the CAEV strains from Norway. Together, both data confirm the previously reported subdivision of the different SRLV strains into six clades. The caprine and ovine lentivirus sequences are interspersed in phylogenetic trees, supporting the existence of cross-species transmission. Nevertheless, the transmission of an ovine lentivirus to a goat could trigger the emergence of some goat-adapted phylums. Our new sequences confirm the complex situation in SRLV phylogeny but more sequences are needed to elucidate more precisely the relationship between SRLV.

Genetic and antigenic characterization of small ruminant lentiviruses circulating in Poland

Small ruminant lentivirus (SRLV) infections are widespread in Poland, but the genetic features of sheep viruses are still lacking and limited to partial gag sequences for goat viruses. In this study, segments from the gag and env genes of Polish SRLV strains screened by heteroduplex mobility assay were subjected to genetic analyses. Subtype A1 was found in both sheep and goats, while subtypes B1 and B2 were found in goats and sheep, respectively. In addition, two novel subtypes (named A12 and A13) were found in sheep. Their close phylogenetic relatedness with SRLV strains previously isolated from Polish goats indicated that these new subtypes are predominant and circulate in both species. The antigenic relationships of subtypes A12 and A13 with other SRLV subtypes were tested in an ELISA assay based on recombinant antigens carrying the immunodominant domains of structural proteins (MA, CA and SU). Antigenic cross-reactivity in the Gag epitopes was evident among genotype A subtypes and, to a lower extent, between genotypes A and B. In contrast, a subtype-specific immunoresponse was detected in the SU epitopes. These results emphasize the broad genetic and antigenic diversity of SRLV strains circulating in Europe and confirmed the need to consider all viral genotypes to choose the antigens in serological tests in order to avoid misdiagnosis in control and eradication programs.

Diverse host-virus interactions following caprine arthritis-encephalitis virus infection in sheep and goats.

Interspecies transmissions substantially contribute to the epidemiology of small ruminant lentiviruses (SRLVs), including caprine arthritis encephalitis virus (CAEV) and visna-maëdi virus. However, comprehensive studies of host-virus interactions during SRLV adaptation to the new host are lacking. In this study, virological and serological features were analysed over a 6 month period in five sheep and three goats experimentally infected with a CAEV strain. Provirus load at the early stage of infection was significantly higher in sheep than in goats. A broad antibody reactivity against the matrix and capsid proteins was detected in goats, whereas the response to these antigens was mostly type-specific in sheep. The humoral response to the major immunodominant domain of the surface unit glycoprotein was type-specific, regardless of the host species. These species-specific immune responses were then confirmed in naturally infected sheep and goats using sera from mixed flocks in which interspecies transmissions were reported. Taken together, these results provide evidence that SRLV infections evolve in a host-dependent manner, with distinct host-virus interactions in sheep and goats, and highlight the need to consider both SRLV genotypes in diagnosis, particularly in sheep.

Field evaluation of a gag/env heteroduplex mobility assay for genetic subtyping of small-ruminant lentiviruses

Small-ruminant lentiviruses (SRLVs) display a high genetic diversity and are currently classified into five genotypes and an increasing number of subtypes. The co-circulation of subtypes in restricted geographical regions, combined with the occurrence of cross-species infection, suggests the need for development of a large-scale screening methodology for rapid monitoring of the prevalence of the various genetic subtypes and their genetic evolution. Here, a heteroduplex mobility assay (HMA) was developed for the rapid identification of group B subtypes. The assay was validated for both the p14 nucleocapsid-coding region of the gag gene and the V1-V2 region of the env gene using a panel of reference standards and was applied to the genetic subtyping of SRLV field isolates from five mixed flocks in France. Subtyping of 75 blood samples using the env HMA revealed a preferential distribution of subtypes B1 and B2 in sheep and goats, despite direct evidence for interspecies transmission of both subtypes. Adding the gag HMA to the env HMA provided evidence for dual infection and putative recombination between subtypes B1 and B2 in five goats, and between groups A and B in one sheep. Phylogenetic analysis revealed that 100 % (23/23) and 96.7 % (30/31) of samples were correctly classified using the gag and env HMAs, respectively. These results indicate that dual infection and recombination may be a significant source of new variation in SRLV and provide a useful tool for the rapid genetic subtyping of SRLV isolates, which could be relevant for the development of more accurate diagnosis of prevalent SRLV strains in different countries.

Interference of Vaccination against Bluetongue Virus Serotypes 1 and 8 with Serological Diagnosis of Small-Ruminant Lentivirus Infection

ABSTRACT The effects of the recent vaccinations against bluetongue virus serotype 1 (BTV-1) and BTV-8 in Europe on the reliability of enzyme-linked immunosorbent assays (ELISAs) currently used for diagnosis of small-ruminant lentivirus (SRLV) infection were examined. Primary vaccination against BTV-8 in goats induced an increase in reactivity that did not exceed 3 months in a whole-virus indirect ELISA and a competitive ELISA based on the gp135 glycoprotein. Subsequent BTV-1/8 vaccination extended the time scale of false-positive reactivity for up to 6 months. These results are of relevance for SRLV-monitoring programs.

Epidemiological survey in single-species flocks from Poland reveals expanded genetic and antigenic diversity of small ruminant lentiviruses

Small ruminant lentivirus (SRLV) infections are widespread in Poland and circulation of subtypes A1, A12, A13, B1 and B2 was detected. The present work aimed at extending previous study based on the analysis of a larger number of animals from single-species flocks. Animals were selected for genetic analysis based on serological reactivity towards a range of recombinant antigens derived from Gag and Env viral proteins. Phylogenetic analysis revealed the existence of subtypes B2 and A12 in both goats and sheep and subtypes A1 and B1 in goats only. In addition, two novel subtypes, A16 and A17, were found in goats. Co-infections with strains belonging to different subtypes within A and B groups were detected in 1 sheep and 4 goats originating from four flocks. Although the reactivity of serum samples towards the recombinant antigens confirmed immunological relatedness between Gag epitopes of different subtypes and the cross-reactive nature of Gag antibodies, eleven serum samples failed to react with antigens representing all subtypes detected up-to-date in Poland, highlighting the limitations of the serological diagnosis. These data showed the complex nature of SRLV subtypes circulating in sheep and goats in Poland and the need for improving SRLV-related diagnostic capacity.