BackgroundThis study describes immunological responses, diagnostic features, follow up and treatment outcomes from seventeen dogs with papular dermatitis due to Leishmania infection diagnosed by cytology or real time-PCR.MethodsSpecific Leishmania humoral and cellular immune responses were evaluated by means of an immunofluorescence antibody test in all cases and a delayed-type hypersensitivity (DTH) reaction to leishmanin in eight cases. The extent of infection was studied in several tissues including blood, lymph node, conjunctival and oral swabs, by means of PCR, at the time of diagnosis and during follow-up. Culture was performed on nine dogs from cutaneous lesions and lymph node aspirates and molecular typing was carried out on isolates based on ITS-1, ITS-2 and Haspb gene sequencing analysis.ResultsCytological and molecular results from fine needle aspirates of papules were diagnostic in 8 out of 13 (61.5%) cases and in 14 out of 15 dogs (93.3%), respectively. In all dogs, specific anti-Leishmania antibody levels were low or absent. Blood and lymph node PCRs and lymph node culture were negative in all dogs. Three out of the nine dogs (33%) were positive by culture from cutaneous lesions. The three isolates were identified as ITS type A, however, polymorphism was observed in the Haspb gene (PCR products of 626 bp, 962 bp and 371 bp). DTH response was positive in all tested dogs at the time of diagnosis. The majority of dogs were successfully treated with only N-methylglucamine antimoniate, after which cutaneous lesions disappeared or were reduced to depigmented, flattened scars. All dogs remained seronegative and the majority of dogs were negative by PCR in several tissues during follow-up.ConclusionsThis study points out that papular dermatitis due to L. infantum is probably an underestimated benign cutaneous problem, associated with a parasite specific cell mediated immunity and a poor humoral immune response. Papular dermatitis is seen in young dogs, and appears to be a mild disease with restricted parasite dissemination and a good prognosis. PCR can be used as a non-invasive method to routinely evaluate papules if Leishmania infection is suspected in cases in which parasites are not visualized by cytology.
The aim of this study is to improve the cultivation of Leishmania promastigotes without the use of common, semisolid culture media such as Evans' modified Tobie's medium (EMTM), liquid RPMI 1640, and Peptone-yeast extract medium (P-Y). Although EMTM medium permits the growth of a high number of parasites, it is technically difficult to prepare as it requires the use of fresh rabbit blood from animals bred on farms, while RPMI 1640 and P-Y show lower growth rates than the EMTM. There is, therefore, a need to develop new blood-free and time-saving culture systems. The aim of this paper is to propose new modified microbiological media, named RPMI-PY and Tobie-PY, to isolate Leishmania and cultivate parasites for research and diagnostic purposes. This study compares classic culture media to the new media, RPMI-PY and Tobie-PY, and demonstrates that the new media have superior performance in terms of time and parasitic load. The growth rate of the parasite was significantly higher at 24, 48, and 72 hr cultivation, based on counts using Bürker's chambers, when compared to classic media. This study was carried out at the National References Centre for Leishmaniasis (C.Re.Na.L.) where the isolation procedures are conducted daily from a number of different biological matrices.
Background Leishmaniasis is one of the most important vector-borne diseases and it represents a serious world health problem affecting millions of people. High levels of Leishmania infections, affecting both humans and animals, are recognized among Italian regions. Among these, Sicily has one of the highest prevalence of Leishmania infection. Methodology/Principal Findings Seventy-eight Leishmania strains isolated from human and animal samples across Sicily, were analyzed for the polymorphic k26-gene and genotypes were assigned according to the size of the PCR products. A multilocus microsatellite typing (MLMT) approach based on the analysis of 11 independent loci was used to investigate populations structure and genetic diversity of the isolated strains. Six L. infantum reference strains were included in the analysis for comparison. Bayesian clustering analysis of microsatellite data showed that all the isolated strains clustered in two genetically distinct populations, corresponding to human and canine isolates respectively. A further subdivision was observed between the two main groups, giving a good correlation between human strains and their geographic origin, conversely canine population showed a great genetic variability diffused in the territory. Conclusions/Significance Among the 78 Leishmania isolates, K26 analysis detected 71 samples (91%) as MON-1 zymodeme, confirming it as the predominant strain in Mediterranean area and 7 human samples (9%) as non-MON-1. MLMT gives important insights into the epidemiology of leishmaniases and allows characterization of different strains to a higher resolution than possible with zymodeme typing. Two main populations presented a strong correlation respect to the different hosts, exhibiting a co-circulation of two distinct populations of L. infantum. The PLOS NEGLECTED TROPICAL DISEASES
Different approaches are being developed to improve the differentiation of Leishmania genus using biochemical and molecular methods. In this study, 11 independent polymorphic microsatellites were used for the typing of strains of L. infantum isolated in Sicily. Polymerase chain reaction was employed to amplify the microsatellites contained in 12 DNA regions selected from among more investigated loci. A total of 51 isolates of L. infantum from dogs were tested by using the same locus panel. The products were successively analysed using an automatic sequence detector (ABI PRISM 3130 AB), to discover relevant microsatellite polymorphisms. It was possible to discriminate between MON-1 and non-MON-1 groups. Moreover, the method permitted to distinguish various genotypes of L. infantum isolates within each zymodema. Model- and distance-based analyses of the data set showed comparable results. The frequency of heterozygosity in the alleles analysed varied extremely between the different groups of isolates. As the method exhibits a high level of discrimination, it is suitable for characterization of closely related strains in epidemiological studies.
The geographical diffusion of leishmaniasis can depend on the factors limiting the distribution of sandfly vectors. In Sicily, as in all Mediterranean areas, sandflies are present almost all year round because the climate permits perpetuation of this vector's life cycle. Transmission can occurs in rural and domestic habitats through the bite of infected female phlebotomine sandflies. In Italy, the visceral form of leishmaniasis is commonly found, which is due exclusively to L. infantum. Two species of sandfly are considered the main vectors: Phlebotomus perniciosus and P. perfiliewi. Fluorescence resonance energy transfer technology was used to determine the parasite load in phlebotomine vectors, and the test was targeted on a 117-bp fragment of kinetoplast DNA minicircles. The assay was evaluated, focusing on analytical sensitivity, discriminatory power, and reliability of quantification. During 2005, a total of 1686 sandflies were trapped in various Sicilian provinces and in farms randomly selected using black light traps. We found 20, 30, and 16 sandflies positive for Leishmania for each kind of analyzed phlebotomine sandfly, respectively, corresponding to 6.5% for the gravid, 2.7% for the fed, and 6.3% for other groups. Previously the insects were identified on the basis of morphology and the most prevalent sandfly species were P. Sergentomyia minuta, P. perfiliewi, and P. perniciosus.
ABSTRACT. Short tandem repeats are used as an effective method to trace DNA markers in genotyping. Using a standardized kit, we tested 11 microsatellite markers recommended by the International Society for Animal Genetics (ISAG) in a sample of 495 Sicilian cattle. The aim of this study was to investigate the allele frequencies in the Sicilian cattle population to provide a reference database and at the same time to assess the use of the ISAG microsatellite panel for pedigree analysis. DNA samples were collected from blood and amplified in an 11-plex polymerase chain reaction (PCR); PCR products were injected in a 3130 Genetic Analyzer. All loci showed high mean polymorphism information content (0.768), and the observed mean heterozygosity was less than the expected value (0.732 vs 0.794, respectively). The exact test for Hardy-Weinberg proportions, allele number, and inbreeding coefficient were calculated. Our results indicated that equilibrium was not always maintained. The observed mean homozygote value exceeded the expected value (132.81 vs 102.14), but no evidence for allele dropout was found. These results could be explained by a nonrandom mating; further studies using a larger number of animals could confirm or invalidate this hypothesis. The probability of identity and exclusion of a locus were also estimated and proved to be useful in paternity testing. The ISAG microsatellite panel is useful to screen the Sicilian bovine kinship. Currently, an allele frequency database is being constructed.
Genotyping strategies are aimed at defining the genetic profile of individuals through the identification of STRs sequences. The applied methodologies are able to ensure the traceability of the meat along the production chains and the control of the correct animal sampling on the farms. However, the discriminative capacity of alleles is studied through the establishment of the allelic frequency in the ovine population of the territory. This may depend on factors such as race, degree of inbreeding, and local selections. In the research of genetic identity in particular, it is exploited that the probability that two different individuals possess the same genetic pattern is equal to the frequency of that genotype in the population under examination and that the frequency of a genotype characterized by more loci is equal to the product of the frequencies of each single genotype (locus) observed. Therefore, we set the task of fixing and tabulating the data of the genetic profiles of the autochthonous breeds that can then be exploited for the traceability investigations of the animals, according to the application of specific algorithms. In practice, we aim to establish and create the starting point for the interpretation of all the genetic data obtained from the analysis of the Sicilian ovine population, whatever the application to do with it. The ultimate goal of this work is the elaboration of allelic panels typical of the sheep populations that represent the starting point for all genetic tests of forensic investigations. In fact, the discovery of particular alleles identify the tabulated frequency representing the genetic variability distribuited in the region. This has the effect of minimizing the identification errors that are spread in the animal population. We can state that from the analysis of allele frequencies developed by Genalex we can obtain expected heterozygosity data according to Hardy-Weinberg law and the obtained heterozygosity data typical for native breeds. All the allele frequencies were employed to create a database containing all the genotypes. These data were useful in the forensic field for the attribution of the kinships in the sheep.
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