BackgroundLeishmania killicki was originally described in 1980 in southeast Tunisia. It was also recently reported in Lybia and Algeria. Nevertheless, neither vector nor reservoirs of this parasite are known. The identification of the vector and the animal reservoir host of L. killicki is critical for the establishment of an efficient control strategy.Findingsblood, popliteal lymph node, spleen, bone marrow, liver and skin were collected from 50 rodents in 2009 in south western Tunisia. Samples were smeared onto glass slides, cultured on NNN medium and tested by polymerase chain reaction for Leishmania detection. Parasites were detected by PCR from 10 Psammomys obesus and from two Ctenodactylus gundi. Parasite identification was performed simultaneously by internal transcribed spacer 1 PCR-RFLP and by PCR sequencing. Both Leishmania major and Leishmania killicki were identified from infected Psammomys and Ctenodactylus gundi respectively.ConclusionThis is the first report of Leishmania killicki identified from Ctenodactylus gundi in Tunisia. This result supports the assumption that C. gundi is a potential reservoir for Leishmania killicki.
Background/Aims: The diagnosis of cutaneous leishmaniasis (CL) is based on the microscopic detection of amastigote, isolation of the parasite, or the detection of Leishmania DNA. Nevertheless, since these techniques are time consuming and not usually available in many endemic countries, the diagnosis remains clinical. Consequently, such disease may be overlooked because of its similarity to other skin diseases. The aim of this study is to describe the clinical polymorphism of CL caused by Leishmaniamajor.Methods: A cross-sectional survey was carried out on 166 patients. Diagnoses were made by both microscopic examination of stained tissue-scraping smears and PCR. The Leishmania species was identified by restriction enzyme analysis of the ribosomal internal transcribed spacer 1 region. The clinical polymorphism was analyzed only for patients with a positive diagnosis for CL and L. major as the identified species. Results and Conclusion: Of the 166 patients, 75 patients fit the inclusion criteria. Twelve different types of CL caused by L. major were defined. The most common type was the ulcero-crusted form followed by the papulonodular form and the impetigenous form. The ulcerated, mucocutaneous, lupoid, and sporotricoid forms were less common. The eczematiform, erysipeloid, verrucous, psoriasiform, and pseudotumoral types were represented by a single case. Zoonotic CL caused by L. major can simulate many other skin diseases, which may lead to a significant spread of this disease and increases in morbidity and drug resistance. This large polymorphism may be the result of a complex association between the genetics of the parasite and the immune response of the host.
BackgroundThe taxonomic status of Leishmania (L.) killicki, a parasite that causes chronic cutaneous leishmaniasis, is not well defined yet. Indeed, some researchers suggested that this taxon could be included in the L. tropica complex, whereas others considered it as a distinct phylogenetic complex. To try to solve this taxonomic issue we carried out a detailed study on the evolutionary history of L. killicki relative to L. tropica.MethodsThirty-five L. killicki and 25 L. tropica strains isolated from humans and originating from several countries were characterized using the MultiLocus Enzyme Electrophoresis (MLEE) and the MultiLocus Sequence Typing (MLST) approaches.ResultsThe results of the genetic and phylogenetic analyses strongly support the hypothesis that L. killicki belongs to the L. tropica complex. Our data suggest that L. killicki emerged from a single founder event and that it evolved independently from L. tropica. However, they do not validate the hypothesis that L. killicki is a distinct complex. Therefore, we suggest naming this taxon L. killicki (synonymous L. tropica) until further epidemiological and phylogenetic studies justify the L. killicki denomination.ConclusionsThis study provides taxonomic and phylogenetic information on L. killicki and improves our knowledge on the evolutionary history of this taxon.
ABSTBACT
Knowledge of the host-feeding pattern of blood-sucking insects helps to understand the epidemiology of a vector-born disease. A set of primers was used to selectively amplify segment of vertebrates' prepronociceptin gene from abdomens of engorged sand flies. Vertebrate DNA was successfully amplified in 65% of blood-fed phlebotomines assayed. Direct sequencing and comparison of resultant sequences with sequences in GenBank, using Basic Local Alignment Search Tool, led to the specific identification of the host in 100% of the cases. In total, 249 blood-fed females belonging to five different sand flies species were captured thanks to Centers for Disease Control and Prevention light traps and sticky papers in different areas of Tunisia between 2007 and 2009. Bloodmeal origin was determined for 146 blood-fed midges: Phlebotomus sergenti Parrot sampled fed only on Ovis aries and Equus caballus, while bloodmeal origin of P. perniciosus Newstead, P. longicuspis Nitzulescu, and P. papatasi (Scopoli) was diversified. We found that midges were fed mainly on Homos sapiens (n = 37; 22.69%), Bos taunts (n = 11; 6.74%), Mus musculus (n = 2; 1.22%), Capra hircus (n = 4; 2.45%), Camelus dromedarius (n = 3; 1.84%), Ovis aries (n = 98; 60.12%), Equus caballus (n = 3; 1.84%), Felis catus (n = 1; 0.6%), Oryctolagus cuniculus (n = 3; 1.84%), and Rattus norvegicus (n = 1; 0.6%). In this study, interestingly, we found for the first time that Mus musculus DNA was found in one female of S. minuta (Rondani) specie and question about its possible vectorial role is opened.
Leishmania (L.) killicki (syn. L. tropica), which causes cutaneous leishmaniasis in Maghreb, was recently described in this region and identified as a subpopulation of L. tropica. The present genetic analysis was conducted to explore the spatio-temporal distribution of L. killicki (syn. L. tropica) and its transmission dynamics. To better understand the evolution of this parasite, its population structure was then compared with that of L. tropica populations from Morocco. In total 198 samples including 85 L. killicki (syn. L. tropica) (from Tunisia, Algeria and Libya) and 113 L. tropica specimens (all from Morocco) were tested. Theses samples were composed of 168 Leishmania strains isolated from human skin lesions, 27 DNA samples from human skin lesion biopsies, two DNA samples from Ctenodactylus gundi bone marrow and one DNA sample from a Phlebotomus sergenti female. The sample was analyzed by using MultiLocus Enzyme Electrophoresis (MLEE) and MultiLocus Microsatellite Typing (MLMT) approaches. Analysis of the MLMT data support the hypothesis that L. killicki (syn. L. tropica) belongs to the L. tropica complex, despite its strong genetic differentiation, and that it emerged from this taxon by a founder effect. Moreover, it revealed a strong structuring in L. killicki (syn. L. tropica) between Tunisia and Algeria and within the different Tunisian regions, suggesting low dispersion of L. killicki (syn. L. tropica) in space and time. Comparison of the L. tropica (exclusively from Morocco) and L. killicki (syn. L. tropica) population structures revealed distinct genetic organizations, reflecting different epidemiological cycles.
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