Predominance of Leishmania major and rare occurrence of Leishmania tropica with haplotype variability at the center of Iran

ABSTRACT Background Leishmania major is a causative agent of zoonotic cutaneous leishmaniasis in the center of Iran, Abarkouh district. Molecular characterization and precise incrimination of Leishmania species was carried out to perform controlling measurements and to design treatment programs for zoonotic cutaneous leishmaniasis. Methods All smears isolated from ulcers of suspected patients were examined under a light microscope and graded for amastigotes frequency. Extraction of DNA, PCR, RFLP and sequencing of ITS-rDNA genotype were done to increase the efficacy of Leishmania parasites identification at their species-specific level and to detect any Leishmania infections within. Results Humans were found to be infected with L. major with high infection frequency and also Leishmania tropica was identified with low occurrence for the first time as non-native species using molecular analyses. The rates of infections was considerable with microscopic observation (n= 65, 73%) out of 89 smears prepared from suspected patients. Molecular analyses showed that the density of L. major was significantly higher (n= 48, 53.93%) than L. tropica (n= 4, 4.49%) (Mann-Whitney U test: p< 0.05) and two samples (2.25%) remained ambiguous after several sequencing. L. major did not have diversity with two common haplotypes but L. tropica were found to exhibit high diversity with three novel haplotypes. Conclusion L. major was considered the causative agent of leishmaniasis in the region, but the identification of a non-native L. tropica revealed the importance of further isolation of Leishmania parasites following molecular analyses and confirmation, and also revealed the importance of further isolation of Leishmania parasites from patients of the field areas who do not have easily access to health care centers for specialized treatment strategies.

The existence of only one haplotype of Leishmania major in the main and potential reservoir hosts of zoonotic cutaneous leishmaniasis using different molecular markers in a focal area in Iran

Introduction Leishmania major is the causative agent of zoonotic cutaneous leishmaniasis (ZCL), and great gerbils are the main reservoir hosts in Iran. Abarkouh in central Iran is an emerging focal point for which the reservoir hosts of ZCL are unclear. This research project was designed to detect any Leishmania parasites in different wild rodent species. Methods All rodents captured in 2011 and 2012 from Abarkouh district were identified based on morphological characteristics and by amplification of the rodent cytochrome b (Cyt b) gene. To detect Leishmania infection in rodents, deoxyribonucleic acid (DNA) of each ear was extracted. Internal transcribed spacer-ribosomal deoxyribonucleic acid (ITS-rDNA), microsatellites, kinetoplast deoxyribonucleic acid (kDNA) and cytochrome b genes of Leishmania parasites were amplified by polymerase chain reaction (PCR). Restriction fragment length polymorphism (RFLP) and sequencing were employed to confirm the Leishmania identification. Results Of 68 captured rodents in the region, 55 Rhombomys opimus were identified and nine Leishmania infections (9/55) were found. In addition, eight Meriones libycus and two Tatera indica were sampled, and one of each was confirmed to be infected. Two Meriones persicus and one Mus musculus were sampled with no infection. Conclusions The results showed that all 11 unambiguously positive Leishmania infections were Leishmania major. Only one haplotype of L. major (GenBank access No. EF413075) was found and at least three rodents R. opimus, M. libycus and T. indica—appear to be the main and potential reservoir hosts in this ZCL focus. The reservoir hosts are variable and versatile in small ZCL focal locations. .

Distribution, fauna and seasonal variation of sandflies, simultaneous detection of nuclear internal transcribed spacer ribosomal DNA gene of leishmania major in rhombomys opimus and phlebotomus papatasi, in natanz district in central part of Iran

Zoonotic cutaneous leishmaniasis [ZCL] due to Leishmania major is increasing in many parts of Iran. This disease originally is a disease found in gerbils. Leishmania parasites are transmitted by sandflies that live and breed in gerbil burrows. Nested PCR amplified Leishmania ITS1-5.8S rRNA gene in both main reservoir host "Rhombomys opimus" and in the "Phlebotomus papatasi" main vector of ZCL, in Iran. Population differentiation and seasonal variation of sandflies were analyzed at a microgeographical level in order to identify any isolation by distance, habitat or seasons. Populations of sandflies were sampled from the edges of villages in Natanz, Isfahan province, Iran, using the Centers for Disease Control traps and sticky papers. Individual sandflies were identified based on external and internal morphological characters. Nested PCR protocols were used to amplify Leishmania ITS1-5.8S rRNA gene, which were shown to be species-specific via DNA sequence. A total of 4500 sandflies were collected and identified. P. papatasi, Phlebotomus sergenti and Phlebotomus jacusieli from genus Phlebotomus and Sergentomyia sintoni and Sergentomyia clydei from genus Sergentomyia were identified in this region. P. papatasi was the most abundant sandfly in the collections. Ten out of 549 female P. papatasi and four out of 19 R. opimus were found to be infected with L. major. Seasonal activity of sandflies starts in June and ends in November. Abundance of P. papatasi was in September. Finding and molecular typing of L. major in P. papatasi and R. opimus confirmed the main vector and reservoir in this region

An overview of a diagnostic and epidemiologic reappraisal of cutaneous leishmaniasis in Iran

Cutaneous leishmaniasis (CL) is a widespread tropical infection which has a high incidence rate in Iran. Leishmania tropica, the causative agent of anthroponotic cutaneous leishmaniasis (ACL), and Leishmania major, which causes zoonotic cutaneous leishmaniasis (ZCL), are endemic in various parts of Iran with a high incidence rate. The aim of this study was to evaluate the reappraisal of the diagnosis and epidemiology of CL in Iran, by different clinical, parasitological and molecular assays among patients suspected of CL referred to the Department of Parasitology, at the Pasteur Institute of Iran during 2006-2009. Two hundred samples from patients with ulcerative skin lesions were collected, clinical analyses were applied, data questionnaire was completed and samples were examined for CL by using both direct microscopic and culture methods. Moreover, PCR assay was applied for detection of Leishmania species in CL isolates resulting from parasitological assay. Clinical observation revealed that the majority (58 percent) of lesions was single; double lesions were observed in 22 percent of patients, and only 20 percent of CL had multiple lesions. Out of 200 patients, Leishman body was observed in 77 samples (38.5 percent) by direct smear and 40 percent by cultivation assay. Most patients (21.3 percent) had a travel history to the Isfahan province, one of the most important endemic areas of CL located in center of Iran. PCR assay by kDNA indicated 32 and 18 out of 50 isolates respectively had similar patterns with standard L. major and L. tropica. In conclusion, clinical manifestations and an appropriate diagnostic assay with a parallel molecular characterization of CL may lead to a screening evaluation of disease, prognosis, treatment and control strategies.

[Evaluation of mulecular epidemiology of cutaneous leishmaniasis in Sabzevar]

Cutaneous leishmaniasis is a parasitic infection With an important health problem in many parts of Iran such as Sabzevar, in Khorasan Razavi province. Epidemiological and clinical findings aren't sufficient for identification of parasites. Because the host sources are different an accurate identification and diagnosis is necessary before treatment. DNA of every parasite such as every organism is specific. This facilitates extensive use of DNA for diagnostic and identification of parasite species. Molecular methods such as PCR seem to be very useful for this reason. We decided to identify different species of leishmania parasites causing Cutaneous leishmaniasis by PCR in Sabzevar A Total of 86 patients, whom diseases were confirmed by direct smear, were recruited and samples were isolated and cultured in NNN medium, followed by sub-cultured in RPMI-1640. Then DNA was extracted using four DNA extraction methods. Extracted kinetoplastic DNA was amplified by PCR method using two specific primers. Electrophoresis patterns from each isolate were compared with reference strains of L.major, L.tropica and the markerThe related bands to amplified products were detected on agarose gel in all samples expected of DNA extracted by boiling method. The results of kDNA gene templets in Electrophoresis gel indicated the leishmania parasite species, causing Cutaneous leishmaniasis, in Sabzevar as 32 samples L.tropica and 54 samples L.major. L.tropica and L.major both are Etiologic agents ofCutaneous leishmaniasis in Sabzevar and PCR technique is a suitable tool for the leishmania species characterization in epidemiological studies. The phenol-chloroform based methods are as valuable as DNeasy mini kit [QIAGEN] but more cost effective than kit

Comparative two-dimensional gel electrophoresis maps for promastigotes of Leishmania amazonensis and Leishmania major

The outcome of Leishmania infections is determined by both the parasite species and the host genetic makeup. While much has been learned regarding immune responses to this parasite, our knowledge on parasite-derived factors is limited. The recent completion of the L. major and L. infantum genome sequence projects and concurrent advancement in proteomics technology would greatly accelerate the search for novel Leishmania proteins. Using a proteomics-based approach to study species-specific Leishmania proteins, we developed high-resolution, broad pH (3-10) two-dimensional gel electrophoresis (2-DE) separations to determine protein-expression profiles between highly infectious forms of the parasitic species L. amazonensis (New World) and L. major (Old World). Approximately 1,650 and 1,530 distinct protein spots were detected in the L. amazonensis and L. major gels, respectively. While a vast majority of the spots had similar distribution and intensity, a few were computationally defined as preferentially expressed in L. amazonensis in comparison to L. major, or vice versa. These data attest to the feasibility of establishing a 2-DE-based protein array for inter-species profiling of Leishmania proteins and provide the framework for future design of proteome studies of Leishmania.