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Morchón R, Bargues M D, Latorre-Estivalis J M, Pou-Barreto C, Melero-Alcibar R, Moreno M, Valladares B, Molina R, Montoya- Alonso J A, Mas-Coma S and Simón F
Dirofilaria immitis is the causal agent of heartworm diseases and of human pulmonary dirofilariosis. The infection
is transmitted by several species of culicid mosquitoes that are frequently able to bite both animal reservoirs and
humans. Canary Islands (Spain) constitute a well documented endemic area of canine dirofilariosis in which the
mosquito species involved in the transmission of D. immitis are not known. The objectives of the present work were
the identification of vectors of this parasite in Canary Islands and their molecular characterization. A total of 1219
female mosquitoes were captured. The most abundant species was Culex theileri (52.26%) followed by Cx. pipiens
(35.44%), Anopheles cinereus hispaniola (6.23%), Culiseta longiareolata (5.74%), and Culex laticintus (0.33%). PCR
was applied for the detection of larval D. immitis DNA in mosquitoes. D. immitis DNA was observed in the abdomen of
one Cx. theileri female: 0.082% of the entire mosquito population and 0.17% in Cx. theileri. A molecular identification
of Cx. theileri, the potential mosquito vector of dirofilariosis in this zoonotic focus in Canary Islands of Spain, has
been made for first time based on sequences of the 18S rRNA gene, the second internal transcribed spacer (ITS2)
of ribosomal DNA and the barcode region of the cytochrome c oxidase I (cox1) gene of mitochondrial DNA, allowing
a broad mosquito molecular basis for future populations genetic analyses of this vector species. Parasitological and
entomological molecular results suggest that Cx. theileri is a potential natural vector of D. immitis in Canary Islands.