Wild mammals as potential silent reservoirs of Leishmania infantum in a Mediterranean area

[Display omitted] •Leishmania infection in wild mammals was detected in an endemic area for leishmaniasis.•L. infantum DNA in the spleen and skin of E. europaeus is reported for the first time.•New evidence points to S. vulgaris as a potential L. infantum reservoir. A molecular survey of wild mammal...

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Veröffentlicht in:Preventive veterinary medicine 2020-02, Vol.175, p.104874-104874, Article 104874
Hauptverfasser: Alcover, M. Magdalena, Ribas, Alexis, Guillén, M. Carmen, Berenguer, Diana, Tomás-Pérez, Míriam, Riera, Cristina, Fisa, Roser
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Sprache:eng
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Zusammenfassung:[Display omitted] •Leishmania infection in wild mammals was detected in an endemic area for leishmaniasis.•L. infantum DNA in the spleen and skin of E. europaeus is reported for the first time.•New evidence points to S. vulgaris as a potential L. infantum reservoir. A molecular survey of wild mammals was performed to assess their potential as reservoirs of L. infantum. A total of 156 specimens of wild mammalian fauna were obtained for analysis from areas in Catalonia with a reported incidence of canine leishmaniasis. They consisted of 124 small mammals: 35 Mus spretus (Muridae); 64 Erinaceus europaeus (Erinaceidae), 25 Sciurus vulgaris (Sciuridae) and 32 carnivores: 11 Vulpes vulpes (Canidae), 1 Felis catus (Felidae), 15 Meles meles, 4 Martes foina and 1 Mustela vison (Mustelidae). The analysis was performed on samples of liver, spleen, skin (ear) and blood extracted from the heart. Leishmania DNA was determined by a qPCR and specific anti-Leishmania antibodies were detected by an in-house (ELISA). Among the 156 specimens studied, 29.48% were positive in at least one of the samples studied and considered infected. In M. spretus, Leishmania DNA was detected in the liver, spleen or skin of 37.1% of 35 specimens, and 2 of the 13 specimens tested serologically were positive (15.38%). In E. europaeus, 34.4% of the 64 specimens were infected. Leishmania DNA was detected in 19/51 spleens and 5/50 skins; 2 of the 37 specimens analysed in both spleen and skin gave positive results in both samples. Serology was positive in 12.8% (6/47) by ELISA; 3 specimens were positive by both ELISA and qPCR. In S. vulgaris, Leishmania DNA was detected in 5 of 25 specimens (20%). Of the 32 carnivore specimens analysed, Leishmania DNA was detected in both samples studied (spleen and liver) of 4 (12.5%) (2 M. foina, 1 M. vison and 1 F. catus), which were not studied serologically. The data obtained indicate that small mammals, above all wild rodents and carnivores, could act as naturally infected hosts of L. infantum in this endemic area. Among the rodents, M. spretus stands out with the highest prevalence of infection. In E. europaeus, the presence of L. infantum DNA in spleen and skin, and antibodies in heart blood, reported here for the first time, indicates this small mammal could be a possible reservoir. Additionally, S. vulgaris, not previously studied as an L. infantum reservoir, showed non-negligible prevalence values, indicating a potential role in leishmaniasis transmissio
ISSN:0167-5877
1873-1716
DOI:10.1016/j.prevetmed.2019.104874