Population Genetics of Phlebotomus papatasi from Endemic and Nonendemic Areas for Zoonotic Cutaneous Leishmaniasis in Morocco, as Revealed by Cytochrome Oxidase Gene Subunit I Sequencing.

Zoonotic cutaneous leishmaniasis (ZCL) caused byLeishmania majorYakimoff & Shokhor and transmitted byPhlebotomus papatasi(Scopoli) is a public health concern in Morocco. The disease is endemic mainly in pre-Saharan regions on the southern slope of the High Atlas Mountains. The northern slope of the High Atlas Mountains and the arid plains of central Morocco remain non-endemic and are currently considered high risk for ZCL. Here we investigate and compare the population genetic structure ofP. papatasipopulations sampled in various habitats in historical foci and non-endemic ZCL areas. A fragment of the mtDNAcytochrome oxidase I (COI)gene was amplified and sequenced in 59 individuals from 10P. papatasipopulations. Haplotype diversity was probed, a median-joining network was generated (F-ST) and molecular variance (AMOVA) were analyzed. Overall, we identified 28 haplotypes with 32 distinct segregating sites, of which seven are parsimony informative. The rate of private haplotypes was high; 20 haplotypes (71.4%) are private ones and exclusive to a single population. The phylogenetic tree and the network reconstructed highlight a genetic structuration of these populations in two well defined groups: Ouarzazate (or endemic areas) and Non-Ouarzazate (or nonendemic areas). These groups are separated by the High Atlas Mountains. Overall, our study highlights differences in terms of population genetics between ZCL endemic and non-endemic areas. To what extent such differences would impact the transmission ofL. majorby naturalP. papatasipopulation remains to be investigated.