Molecular Diagnosis of Old World Cutaneous Leishmaniasis and Species Identification by Use of a Reverse Line Blot Hybridization Assay

Abstract

Reverse line blot hybridization assays (RLB) have been used for the rapid diagnosis and genotyping of many pathogens. The leishmaniases are caused by a large number of species, and rapid, accurate parasite characterization is important in deciding on appropriate therapy. Fourteen oligonucleotide probes, 2 genus specific and 12 species specific (2 specific for Leishmania major , 3 for L. tropica , 1 for L. infantum , 3 for L. donovani , and 3 for L. aethiopica ), were prepared by using DNA sequences in the internal transcribed spacer 1 (ITS1) region of the rRNA genes. Probe specificity was evaluated by amplifying DNA from 21 reference strains using biotinylated ITS1 PCR primers and the RLB. The genus-specific probes, PP and PP3′, recognized all Leishmania species examined, while the species-specific probes were able to distinguish between all the Old World Leishmania species. Titrations using purified parasite DNA showed that the RLB is 10- to 100-fold more sensitive than ITS1 PCR and can detect L. major or L. tropica was identified by the RLB in 55 of the confirmed positive cases, a level of accuracy better than that of ITS1 PCR with restriction fragment length polymorphism (42/59). Thus, RLB can be used to diagnose and characterize Old World CL.