Porcine hokovirus, recently classified as Ungulate tetraparvovirus 2 (UTV2) belongs to the Parvoviridae family and is related to Primate tetraparvovirus (formerly known as human PARV-4) and Ungulate tetraparvovirus 1(UTV1) (formerly known as bovine hokovirus).1,2 The UTV2 genome organization contains two major open reading frames (ORFs), named ORF1 and ORF2, separated by a small non-coding region. ORF1 encodes non-structural proteins (NS) and ORF2 encodes the two overlapping capsid proteins (VP1/VP2) and a small conserved putative protein.1 Studies demonstrated high prevalence rates of UTV2 in domestic pigs and wild boar populations ranging from 22.8% to 50.5%.1,3,4 UTV2 can infect pigs of different ages but higher prevalence was found in older pigs (grow-finishing),5 as well as in adult wild boars.3 UTV2 has been detected in domestic pigs in many countries as Hong Kong,1 United States,5 China,6 Cameroon,7 as well as wild boars from Germany3 and Romania,4 indicating that the virus can be endemic worldwide in both domestic and wild pig population.

UTV2 has been detected in a variety of porcine tissues, fecal and serum samples from healthy or sick pigs, but no clinical symptoms have been linked to infection or viral persistence.1,3,8 However, one study observed that pigs displaying respiratory disease had higher levels of UTV2 compared to those with enteric disease or abortion.5 In addition, some studies demonstrated concurrent infection between emerging parvovirus with the porcine circovirus 2 (PCV2).9,10 Therefore, the aim of this study was to detect and analyze phylogenetically UTV2 in pigs suffering from postweaning multisystemic wasting syndrome (PMWS).

All pigs from the present study fulfilled the requisites for the case definition of PMWS as previously proposed by Sorden.11 In the histopathology analysis, all of the lymph node samples displayed lymphocytic depletion, multinucleated giant cell formation and histiocytic replacement of follicles. In addition, the lung samples demonstrated multifocal lymphohistiocytic interstitial pneumonia. PCV2 antigen was detected by IHC in all lung and lymph node samples and all the samples were confirmed to be PCV2 positive in the PCR assay. A total of 55.3% samples were UTV2 PCR-positive distributed in all herds, with exception of one herd, which UTV2 was not detected. In the evaluation of porcine tissues, the highest positivity of UTV2 was found in spleen (68.5%) followed by the lung (65%), lymph node (57.5%), kidney (57.5%) and liver (54.3%).

In total, six sequences covering all VP1/VP2 region (with length of approximately 2696bp) were obtained. The sequences came from four spleen samples (accession number: JQ700067, JQ700069, JQ700072 and JQ700070), one lung sample (accession number: JQ700068) and one lymph node sample (accession number: JQ700071). Both phylogenetic tree construction methods displayed similar consensus trees demonstrating that Brazilian sequences were clustered mostly with sequences from Great Britain, United States and Germany. Most of the Chinese sequences clustered together with exception of sequence EU200671 (Fig. 1).

Fig. 1.

Phylogenetic tree constructed by Bayesian Inference based on complete nucleotide sequences of the VP gene of UTV2. The acronym refers to country of each sequence: BR, Brazil; CH, China; GB, Great Britain; GER, Germany; ROM, Romania; US, United States. All the sequences are represented with the accession number from Genbank. The sequences from this study are marked with a black dot. The trees were statistically evaluated with the posterior probability confidence. An UTV1 sequence (EU200668) was used as outgroup.

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A high number of UTV2 positive samples in pigs displaying PMWS was observed and represents the first report of UTV2 in Brazil. Since the samples were collected during a PMWS outbreak in 2005, our data indicate that UTV2 was present in Brazilian herds at least for more than ten years. UTV2 has been detected in several countries as Hong Kong,1 Germany,3 Romania,4 Hungary,9 United States,5 Canada,16 China6 and Cameroon7 in domestic and wild pigs. Nevertheless, until now there is no available data of this virus in Latin America.

Several studies have demonstrated that pigs coinfected with PCV2 and Ungulate protoparvovirus 1 (UPV1), formerly known as porcine parvovirus 1, develop more severe disease and lesions than pigs infected with PCV2 alone.17–19 For UTV2, recent studies demonstrated concurrent infection with PCV2 in pigs.6,9,10 Our study demonstrated high positivity of UTV2 in pigs displaying PMWS as well, however it is not possible to associate with a role in pathogenesis or any impact in PCV2 associated disease since it was not a case–control or experimental infection study.

It is widely known that parvoviruses, as UPV1, have tropism for high mitotic rate tissue as reproductive organs and fetus tissues, which characterizes reproductive failure in pigs that can lead to significant economic losses in swine industry.20,21 So far, previous studies showed that UTV2 has been preferentially detected in lymph nodes,1 although has been also detected in lung, liver, spleen, heart, tonsil and kidney.1,3,4,8 In our study, a similar percentage of UTV2 detection in the tissues (spleen, lung, lymph node, kidney and liver) was found, suggesting that the virus can infect a wide variety of porcine tissues. In order to evaluate the pathogenicity, viral isolation in distinct cell lines was attempted in the present study without success.

Previous analysis of age distribution showed an increased prevalence rate of UTV2 in grow-finish pigs (8–25 weeks of age) compared to nursery pigs (3–7 weeks of age),5 similar to the age of pigs from our study (12–15 weeks of age). In wild boars was reported higher UTV2 prevalence in animals older than one year, but the highest proportion of animals with high virus loads was seen in animals younger than two years of age, suggesting that these animals were infected in an early stage of life.3

Phylogenetic studies demonstrated that UTV2 has a close relationship with Primate tetraparvovirus showing approximately 65% similarity at nucleotide or amino acid levels.1,3,4 Based on genome sequences analysis, it has been suggested that UTV2 strains circulate in both domestic and wild pig populations in Europe.4 However, due to the lack of UTV2 sequences available from wild boars from Brazil it is not possible to estimate if the Brazilian virus strains co-circulate in domestic and wild pigs populations. According to ORF2 phylogenetic analysis, a main cluster could be evidenced with most of Chinese and Romanian sequences, as previously reported.4,5 Brazilian sequences were displaced outside this main cluster together with sequences from Germany, Great Britain, Romanian and United States. These sequences presented several sub-clusterizations, however a main cluster could not be observed. This closely relationship between U.S. sequences and those from Great Britain and Romania was previously observed with high sequence identities between sequences.5 The relatedness between Brazilian, North American and European sequences found in our study needs to be further investigated. Although it could be hypothesized that this phylogenetic relationship resulted from live pig genetic transfer from Europe and/or United States to Brazil. Furthermore, investigations in contaminated commercial biological products, as vaccines, may elucidate the origin and route of transmission of UTV2 across the countries.

In conclusion, our data demonstrated a high number of UTV2 positive samples in pigs displaying PMWS and represent the first report of UTV2 in pigs in Brazil. In addition, the Brazilian sequences demonstrated a close phylogenetic relationship with European and North American sequences.

The authors declare no conflicts of interest.