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. 2015 Feb 24:46:13.
doi: 10.1186/s13567-015-0149-4.

Field and experimental data indicate that the eastern cottontail (Sylvilagus floridanus) is susceptible to infection with European brown hare syndrome (EBHS) virus and not with rabbit haemorrhagic disease (RHD) virus

Antonio LavazzaPatrizia CavadiniIlaria BarbieriPaolo TizzaniAna PinheiroJoana AbrantesPedro J EstevesGuido GrilliEmanuela GioiaMariagrazia ZanoniPier MeneguzJean-Sébastien GuittonStéphane MarchandeauMario ChiariLorenzo Capucci

Field and experimental data indicate that the eastern cottontail (Sylvilagus floridanus) is susceptible to infection with European brown hare syndrome (EBHS) virus and not with rabbit haemorrhagic disease (RHD) virus

Antonio Lavazza et al. Vet Res. .

Abstract

The eastern cottontail (Sylvilagus floridanus) is an American lagomorph. In 1966, it was introduced to Italy, where it is currently widespread. Its ecological niche is similar to those of native rabbits and hares and increasing overlap in distribution brings these species into ever closer contact. Therefore, cottontails are at risk of infection with the two lagoviruses endemically present in Italy: Rabbit Haemorrhagic Disease virus (RHDV) and European Brown Hare Syndrome Virus (EBHSV). To verify the susceptibility of Sylvilagus to these viruses, we analyzed 471 sera and 108 individuals from cottontail populations in 9 provinces of north-central Italy from 1999 to 2012. In total, 15-20% of the cottontails tested seropositive for EBHSV; most titres were low, but some were as high as 1/1280. All the cottontails virologically tested for RHDV and EBHSV were negative with the exception of one individual found dead with hares during a natural EBHS outbreak in December 2009. The cottontail and the hares showed typical EBHS lesions, and the EBHSV strain identified was the same in both species (99.9% identity). To experimentally confirm the diagnosis, we performed two trials in which we infected cottontails with both EBHSV and RHDV. One out of four cottontails infected with EBHSV died of an EBHS-like disease, and the three surviving animals developed high EBHSV antibody titres. In contrast, neither mortality nor seroconversion was detected after infection with RHDV. Taken together, these results suggest that Sylvilagus is susceptible to EBHSV infection, which occasionally evolves to EBHS-like disease; the eastern cottontail could therefore be considered a "spill over" or "dead end" host for EBHSV unless further evidence is found to confirm that it plays an active role in the epidemiology of EBHSV.

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Figures

Figure 1
Figure 1
Maps showing sites in northern and central Italy where cottontails were sampled. The map shows the sites and areas of north-central Italy where cottontails were sampled during the two epidemiological surveys and where the clinical case of EBHS in cottontails was observed.
Figure 2
Figure 2
Results of serological analysis for RHD and EBHS antibodies in cottontails during the first survey. Results of serological analysis for RHD and EBHS in cottontail sera from three areas in the Alessandria province (black columns = AbRHDV; grey columns = AbEBHSV).
Figure 3
Figure 3
Results of serological analysis for EBHS in hare and cottontail sera after the clinical case. Results of serological analysis for EBHS in hare (n = 25) and cottontail (n = 11) sera after the outbreak in Cerro Maggiore in 2011 (black columns = hares; grey columns = cottontails).
See this image and copyright information in PMC

References

    1. Matthee CA, van Vuuren JB, Bell D, Robinson TJ. A molecular supermatrix of the rabbits and hares (Leporidae) allows for the identification of five intercontinental exchanges during the Miocene. Syst Biol. 2004;53:433–447. doi: 10.1080/10635150490445715. - DOI - PubMed
    1. van der Loo W, Abrantes J, Esteves PJ. Sharing of endogenous lentiviral gene fragments among leporid lineages separated for more than 12 million years. J Virol. 2009;83:2386–2388. doi: 10.1128/JVI.01116-08. - DOI - PMC - PubMed
    1. Pinheiro A, de Mera IGF, Alves PC, Gortázar C, de la Fuente J, Esteves PJ. Sequencing of modern Lepus VDJ genes shows that the usage of VHn genes has been retained in both Oryctolagus and Lepus that diverged 12 million years ago. Immunogenetics. 2013;65:777–784. doi: 10.1007/s00251-013-0728-3. - DOI - PubMed
    1. Arthur CP, Chapuis JL. L’introduction de Sylvilagus floridanus en France: historique, dangers et expérimentation en cours. CR Soc Biogéogr. 1983;59:333–356.
    1. Chapuis JL, Forgeard F, Didillon MC. Étude de Sylvilagus floridanus en région méditerranéenne dans des conditions de semi-liberté. Régime alimentaire au cours d’un cycle annuel par l’analyse micrographique des fèces. Gibier Faune Savage. 1985;3:5–31.

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