Molecular evidence of Leishmania infantum in Ixodes ricinus ticks from dogs and cats, in Italy.

Leishmaniosis, caused by Leishmania infantum, is an endemic zoonosis in the Mediterranean basin. To date, phlebotomine sand flies are the only accepted biological vectors of Leishmania parasites to dogs and humans. The absence of the primary vector in autochthonous Leishmania outbreaks suggests a possible role of fleas or ticks as alternative vectors. In this study, 119 ticks were collected between August 2007-June 2008 and between March 2010-October 2010 from various animal species and humans living in Italian areas where canine leishmaniosis is endemic (i.e. rural areas of the North) and were tested for the presence of L. infantum DNA. Nine (7.5%) out of 119 ticks resulted PCR positive. All ticks were morphologically identified as Ixodes ricinus ticks, 3 from 1 cat, 6 from 4 dogs. To our knowledge, this is the first evidence of L. infantum DNA in ticks from cat, suggesting that the debate about the epidemiological role of ticks in canine leishmaniosis might be extended to feline leishmaniosis.

[1]  M. Gramiccia,et al.  The role of indigenous phlebotomine sandflies and mammals in the spreading of leishmaniasis agents in the Mediterranean region. , 2013, Euro surveillance : bulletin Europeen sur les maladies transmissibles = European communicable disease bulletin.

[2]  M. Gramiccia,et al.  Ongoing outbreak of visceral leishmaniasis in Bologna Province, Italy, November 2012 to May 2013. , 2013, Euro surveillance : bulletin Europeen sur les maladies transmissibles = European communicable disease bulletin.

[3]  F. Montarsi,et al.  Detection of Leishmania infantum, Babesia canis, and rickettsiae in ticks removed from dogs living in Italy. , 2012, Ticks and tick-borne diseases.

[4]  R. Molina,et al.  The hare (Lepus granatensis) as potential sylvatic reservoir of Leishmania infantum in Spain. , 2012, Veterinary parasitology.

[5]  M. Brito,et al.  Detection of Leishmania infantum in animals and their ectoparasites by conventional PCR and real time PCR , 2012, Experimental and Applied Acarology.

[6]  R. Galuppi,et al.  Anaplasma phagocytophilum in ticks from parks in the Emilia-Romagna region of northern Italy. , 2012, Veterinaria italiana.

[7]  L. Rossi,et al.  Detection of Leishmania infantum DNA mainly in Rhipicephalus sanguineus male ticks removed from dogs living in endemic areas of canine leishmaniosis , 2012, Parasites & Vectors.

[8]  M. Gramiccia Recent advances in leishmaniosis in pet animals: epidemiology, diagnostics and anti-vectorial prophylaxis. , 2011, Veterinary parasitology.

[9]  M. Trotta,et al.  A serological and molecular study of Leishmania infantum infection in cats from the Island of Ibiza (Spain). , 2011, Vector borne and zoonotic diseases.

[10]  N. F. Gontijo,et al.  First report of infection of Lutzomyia longipalpis by Leishmania (Leishmania) infantum from a naturally infected cat of Brazil. , 2010, Veterinary parasitology.

[11]  T. F. Martins,et al.  Transovarial passage of Leishmania infantum kDNA in artificially infected Rhipicephalus sanguineus. , 2010, Experimental parasitology.

[12]  D. Otranto,et al.  Fleas and ticks as vectors of Leishmania spp. to dogs: caution is needed. , 2010, Veterinary parasitology.

[13]  L. Alves,et al.  Detection of Leishmania infantum in Rhipicephalus sanguineus ticks from Brazil and Italy , 2010, Parasitology Research.

[14]  V. M. Lima,et al.  Potential role for dog fleas in the cycle of Leishmania spp. , 2009, Veterinary parasitology.

[15]  E. Dias,et al.  Evaluation of the vectorial capacity of Rhipicephalus sanguineus (Acari: Ixodidae) in the transmission of canine visceral leishmaniasis , 2009, Parasitology Research.

[16]  G. Milon,et al.  Leishmania DNA is rapidly degraded following parasite death: an analysis by microscopy and real-time PCR. , 2007, Microbes and infection.

[17]  P. Linardi,et al.  Can fleas from dogs infected with canine visceral leishmaniasis transfer the infection to other mammals? , 2007, Veterinary parasitology.

[18]  M. Gramiccia,et al.  Infection of sandflies by a cat naturally infected with Leishmania infantum. , 2007, Veterinary parasitology.

[19]  C. Acedo,et al.  Infection by Leishmania infantum in cats: epidemiological study in Spain. , 2007, Veterinary parasitology.

[20]  F. Dantas-Torres,et al.  Epidemiologic surveillance of canine visceral leishmaniasis in the municipality of Recife, Pernambuco. , 2005, Revista da Sociedade Brasileira de Medicina Tropical.

[21]  R. Fujiwara,et al.  Participation of Rhipicephalus sanguineus (Acari: Ixodidae) in the epidemiology of canine visceral leishmaniasis. , 2005, Veterinary parasitology.

[22]  A. Le Menach,et al.  Determination of an efficient and reliable method for DNA extraction from ticks. , 2004, Veterinary research.

[23]  F. Vitale,et al.  Case Report of Leishmaniasis in Four Cats , 2004, Veterinary Research Communications.

[24]  A. Franceschi,et al.  Detection of Leishmania DNA in blood of cats from endemic foci of canine leishmaniasis by means of PCR: preliminary report , 2004 .

[25]  M. Gramiccia,et al.  A stable focus of canine leishmaniosis in the Bologna Province, Italy. , 2003, Parassitologia.

[26]  P. Bastien,et al.  Comparison of Six PCR Methods Using Peripheral Blood for Detection of Canine Visceral Leishmaniasis , 2002, Journal of Clinical Microbiology.

[27]  R. Killick-Kendrick,et al.  The biology and control of phlebotomine sand flies. , 1999, Clinics in dermatology.

[28]  S. Pampiglione,et al.  Studies on mediterranean Leishmaniasis. I. An outbreak of visceral leishmaniasis in Northern Italy. , 1974, Transactions of the Royal Society of Tropical Medicine and Hygiene.