Fernanda Ramos

Genomic Characterization of a Slow/Low Maedi Visna Virus

The complete genomic sequence of a sheep lentivirus isolate that presents a slow/low phenotype in vitro has been determined. The virus, designated P1OLV, was isolated from lung cells of a naturally infected sheep in Portugal. Three overlapping DNA fragments amplified by PCR, and encompassing the entire viral genome were cloned and sequenced. This isolate has an overall similarity of approximately 80% with the K1514 Maedi Visna virus (MVV) and approximately 70% with the caprine arthritis encephalitis virus (CAEV) Co strain. Phylogenetic analysis based on SU and RT nucleotide sequences grouped P1OLV with previously reported ovine MVV. To determine the virus replication rate, sheep choroid plexus (SCP) and lung cells, macrophages (MØ), and goat synovial membrane (GSM) cells were inoculated with either P1OLV or with the lytic North American strain WLC-1. Viral RNA in culture supernatants was measured by one-tube real time quantitative RT-PCR. Significant differences were observed between the replication rates of the two viruses, with WLC-1 growing rapidly and to high levels in all the cells tested, while P1OLV replicated more slowly and to lower levels inducing persistent infections in lung and SCP cells. The U3 region of the LTR of P1OLV lacks the sequence repeats that are present in the LTRs of WLC-1 and MVV prototype K1514 and that contain additional binding sites for the AML(vis) transcriptional factor. To evaluate the contribution of LTR in the virus replication rate in vitro, we measured the basal activity of the promoter from P1OLV and WLC-1 in a luciferase-driven gene expression assay and lower levels of expression were achieved for P1OLV. The genetic and biological properties of P1OLV will be useful for the study of virus transcriptional factors and genes that may be responsible for the slow/low phenotype.

A DIVA system based on the detection of antibodies to non-structural protein 3 (NS3) of Bluetongue virus

Vaccination programs for the control of bluetongue (BT) in ruminants have limitations due to difficulties in differentiating infected from vaccinated animals (DIVA). To overcome this problem a DIVA test that looks at a differential immune response to bluetongue virus (BTV) non-structural protein 3 (NS3) was developed. The NS3 encoding gene of strain BTV4/22045/PT04 was inserted into expression vector pET-28a and expressed in Escherichia coli strain JM109. Recombinant NS3 protein was used as an antigen in an indirect ELISA (NS3-ELISA) to measure the serologic response to NS3 protein in cattle and sheep. Following a cattle vaccination/challenge experiment with a bivalent inactivated BTV 2-4 vaccine, NS3 antibodies were detected at approximately 15 days post-infection in control unvaccinated animal, while vaccinated animals did not develop detectable NS3 antibodies and, with exception of one, remained negative even after virus challenge. The inactivated vaccine induced antibodies against the major core structural protein (VP7) of BTV as well as neutralizing antibodies in all animals. To evaluate the applicability of NS3-ELISA in field scenario, a total of 562 serum samples collected from uninfected, BTV-infected and vaccinated animals were tested for NS3 antibodies. Taken together, the results confirm that NS3 antibodies were induced to the greatest levels in animals infected with BTV in comparison to the levels induced in animals immunized with inactivated BTV vaccines, implying that antibody response to NS3 allows the differentiation between infected and vaccinated animals.

Simultaneous detection of West Nile and Japanese encephalitis virus RNA by duplex TaqMan RT-PCR

West Nile virus (WNV) and Japanese encephalitis virus (JEV) are important mosquito-borne viruses of the Flaviviridae family, associated with encephalitis, mainly in humans and horses. WNV is also pathogen for many bird species. The incidence of human and animal WNV infections in Europe has risen, mostly in recent years, and JEV was detected in 2011 in mosquitoes collected in Italy and may emerge in Europe in the same way as other flaviviruses had emerged recently (USUTU and Bagaza virus) and should be regarded as a potential threat to public health. Prompt identification and discrimination between WNV and JEV provides critical epidemiological data for prevalence studies and public and animal health management policies. Here we describe a quantitative one-step duplex TaqMan RT-PCR, targeting non-structural protein 2A gene (NS2A-qRT-PCR), based on only one primer pair and two probes for differential diagnosis of WNV and JEV. Also this assay enables the detection of both WNV lineages (WNV-1 and WNV-2). To access the specificity of NS2A-qRT-PCR a panel of different arboviruses were used. The assay was shown to be specific for both WNV lineages (WNV-1 and WNV-2), WNV related Kunjin virus and JEV, since no cross-reactions were observed with other tested arboviruses. Sensitivity of the assay was determined using serial dilutions of in vitro-transcribed RNA from WNV and JEV. The duplex NS2A-qRT-PCR assay was shown to be very sensitive, being able to detect 10 copies of WNV and JEV RNA. This assay is a suitable tool for the diagnosis of WNV and JEV, and provides a valuable addition to the methods currently available for routine diagnosis of these zoonoses and for surveillance studies.

Serological evidence of West Nile virus circulation in Portugal

The circulation of West Nile virus in Portugal was assessed by serological surveys conducted during 2004-2010 in horses and birds. The detection of WNV antibodies in both species in all the years covered by the study as well as the presence of anti-WNV IgM in symptomatic horses that had not traveled outside the country, support the notion that WNV circulates in Portugal.

Multiyear surveillance of Influenza A virus in wild birds in Portugal

This report presents the results of a multiyear (2005 to 2009) study of avian influenza virus (AIV) occurrence in wild birds in Portugal. A total of 5691 samples from wild birds belonging to 13 different orders were examined. Ninety-three samples tested positive for AIV by matrix reverse transcriptase-polymerase chain reaction, giving a total prevalence of 1.63%. Twenty-one viruses were successfully cultured in embryonated chicken eggs, which represent a rate of viral infectivity of 22.6% in the samples. Nine subtypes of haemagglutinin (H1, H3 to H7, H9 to H11) and eight subtypes of neuraminidase (N1 to N4, N6 to N9) were identified in 20 different combinations. The most prevalent subtypes of haemagglutinin detected were H5, H1 and H4, while for neuraminidase subtypes N2 and N6 were the most common. The subtype combinations H4N6 and H1N1 were predominant (15.1%). All H5 and H7 viruses detected in the present study were low pathogenic for poultry as determined by the sequence of amino acids at the cleavage site of haemagglutinin. The full-length nucleotide sequences of five H5, one H7 and five N3 genes were analysed phylogenetically. The Bayesian analysis revealed that all but one of the strains analysed were closely related to isolates detected in the same period in North and Central European countries. Three H5N3 isolates, all from 2007, formed a separate cluster in both H5 and N3 phylogenetic trees. This study provides evidence that various subtypes of AIV, including subtypes H5 and H7, circulate in Portugal, which may pose a risk to industrial poultry.

Detection of RHDV variant 2 in the Azores

RABBIT haemorrhagic disease virus (RHDV) causes a highly infectious and lethal disease in European rabbits ( Oryctolagus cuniculus ). In Portugal the disease was first reported on the island of Madeira in 1987 and, in the following year, in the Azores. The first report of the disease on the mainland occurred in 1989. Since then, the disease has become endemic throughout the country. The genetically distinct RHDV variant 2 (RHDV-2) was reported on the Portuguese mainland …

Rabbit haemorrhagic disease virus 2 (RHDV2) outbreak in Azores: Disclosure of common genetic markers and phylogenetic segregation within the European strains

Rabbit haemorrhagic disease virus 2 (RHDV2) is widespread in several countries of Western Europe, but it has not been introduced to other continents. However, between late 2014 and early 2015, the presence of RHDV2 was confirmed outside of the European continent, in the Azores, initially in the islands of Graciosa, Flores, S. Jorge and Terceira. In this study we report the subsequent detection of RHDV2 in wild rabbits from the islands of Faial, St. Maria and S. Miguel, and display the necropsy and microscopic examination data obtained, which showed lesions similar to those induced by classical strains of RHDV, with severe affection of lungs and liver. We also disclose the result of a genetic investigation carried out with RHDV2 positive samples from wild rabbits found dead in the seven islands. Partial vp60 sequences were amplified from 27 tissue samples. Nucleotide analysis showed that the Azorean strains are closely related to each other, sharing a high genetic identity (>99.15%). None of the obtained sequences were identical to any RHDV2 sequence publically known, hampering a clue for the source of the outbreaks. However, Bayesian and maximum likelihood phylogenetic analyses disclosed that Azorean strains are more closely related to a few strains from Southern Portugal than with any others presently known. In the analysed region comprising the terminal 942 nucleotides of the vp60 gene, four new single nucleotide polymorphisms (SNP) were identified. Based on the present data, these four SNPs, which are unique in the strains from Azores, may constitute putative molecular geographic markers for Azorean RHDV2 strains, if they persist in the future. One of these variations is a non-synonymous substitution that involves the replacement of one amino acid in a hypervariable region of the capsid protein.

New insight into the epidemiology of rabbit hemorrhagic disease viruses in Portugal: retrospective study reveals the circulation of genogroup 5 (G5) in Azores and discloses the circulation of G1 and G6 strains in mainland until 2008.

The genetic relationships between 10 rabbit hemorrhagic disease strains collected in Portugal between 2006 and 2013, originated in the mainland and Azorean islands, were investigated based on the vp60 gene variability. A genetic diversity ranging from 2% to 13% was determined among the 10-vp60 complete sequences revealing a significant level of genetic heterogeneity between same strains. Phylogenetic Bayesian analysis showed that the Portuguese RHDV strains fell within different genogroups, namely G1, G5 and G6. Interestingly, all strains obtained from Azores, where RHDV was first detected in 1988, belong to G5 genogroup. G5 strains, that were not identified in the continent so far, seem to be the dominant group in these Atlantic islands. G1-related strains belonging to the Iberian group 3 (n=3) and G6 (RHDVa) strains (n=2) were identified among the samples originated in mainland which were collected between 2006 and 2008. Although the presence of G1 and G6 in Portugal had been shown before, our data refines the time of circulation of these strains until at least 2008. In summary, this study revises the epidemiological information of RHDV in Portugal since it reports for the first time the presence of G5 strains in Azores and demonstrates the circulation of G1 and G6 strains in mainland Portugal until the late 2000s.

Development and validation of a real time PCR for the detection of myxoma virus based on the diploid gene M000.5L/R.

The myxoma virus (MYXV) causes severe infections in European rabbits that may reach mortality rates up to 100% depending on the viral strain. The typical symptoms and lesions induced by the virus are usually enough to permit the correct clinical diagnosis. However, in peracute forms the infection may be accompanied by unspecific symptoms. Sudden death may also occur without evident clinical signs of myxomatosis. Likewise, a clinical diagnosis of atypical forms of myxomatosis (amyxomatous) is often complicated and delayed due to the scarceness of skin lesions. As the disease control often depends on an early and unequivocal diagnosis of MYXV, laboratorial methods play a relevant role in the confirmation of MYXV infection. This study describes the development and validation of a novel, high accurate real time polymerase chain reaction assay (rtPCR) for the detection of MYXV. Primers were designed to amplify a 125-bp within the gene M000.5L/R, which is duplicated in the termini of the genome and is unique among Leporipoxvirus. The assay was negative for SFV and other poxviruses and was able to detect 2.6 copies of MYXV DNA proving the effectiveness, specificity and sensitivity of this diagnosis tool. The rtPCR has been applied successfully in INIAV laboratory for routine diagnosis of myxomatosis since 2005.

Phylogenetic analysis of six isolates of beak and feather disease virus from African grey parrots in Portugal.

Abstract Beak and feather disease virus (BFDV), a member of the genus Circovirus, was detected in six dead African grey parrots (Psittacus erithacus) in Portugal. The complete nucleotide sequences of these six BFDVs (PT05, PT08, PT08-2, PT08-3, PT09, and PT09-2) were determined and analyzed. The seven open reading frames (ORFs) described for other BFDVs were detected in all strains, except for PT05 and PT08, in which ORFs 4 and 7 are absent. Bayesian inference of phylogeny based on complete genomes of BFDVs isolated in Portugal and 32 other BFDVs found in other parts of the world revealed that PT05 is included in lineage IV, whereas the others form a new proposed genotype lineage IX. The nucleotide diversity ranged from 2% to 12% between the BFDV strains isolated in Portugal and other BFDVs found worldwide.