Identificación molecular con base en el gen hsp70 de aislamientos clínicos de Leishmania spp. en Colombia

Introduction: Leishmaniasis is highly prevalent in Colombia, where at least six different species can cause disease of varying clinical presentations in humans. The identification of the infecting species is quite important for prognosis, therapeutics and epidemiology. Different techniques with variable discriminatory power have been used for the identification. Objective: To carry out the molecular identification of Leishmania species through the amplification of a fragment of the hsp70 gene. Materials and methods: Molecular amplification of the hsp70 gene fragment (PCR-hsp70) followed by restriction fragment length polymorphism analysis (RFLP) was done for identification purposes using DNA from 81 clinical isolates of Leishmania. Results: A single amplicon was obtained for all samples analyzed. The enzymatic restrictions of the 81 PCR products identified 70 with a banding pattern corresponding to L. braziliensis with two different patterns (62 and eight isolates, respectively), nine isolates compatible with L. panamensis and two with L. guyanensis. The geographical origin of the isolates is consistent with previous reports about the distribution of the corresponding species in Colombia. Conclusions: The PCR-hsp70/RFLP technique used is a valid tool for the identification of Leishmania species isolated from clinical samples of patients in Colombia, which may also be applicable to the study of strains obtained from vectors and reservoirs with epidemiological significance.Introducción. La leishmaniasis es una enfermedad de gran prevalencia en Colombia, donde al menos seis especies diferentes la originan en el ser humano, con un amplio rango de características clínicas. La tipificación de la especie es importante, no solo desde el punto de vista epidemiológico, sino para el diagnóstico, dado que el tratamiento puede variar dependiendo de la especie identificada. En la identificación se han utilizado varias alternativas metodológicas con diferentes niveles de poder discriminatorio.Objetivo. Identificar especies de Leishmania mediante la amplificación molecular de un fragmento del gen hsp70.Materiales y métodos. Se amplificó un fragmento del gen hsp70 mediante reacción en cadena de la polimerasa (PCR-hsp70) y se hizo el análisis de los polimorfismos de la longitud (Restriction Fragment Length Polymorphism, RFLP) de los fragmentos de restricción de 81 aislamientos clínicos de Leishmania spp. de pacientes con leishmaniasis cutánea y mucocutánea para la identificación de las especies presentes.Resultados. Se obtuvo un solo amplicón para todas las muestras analizadas. La restricción enzimática de los 81 productos permitió la identificación de 70 con dos patrones de bandas que correspondían a dos alelos de Leishmania braziliensis (62 y ocho aislamientos, respectivamente), nueve aislamientos compatibles con L. panamensis y dos con L. guyanensis. El origen geográfico de los aislamientos coincidió con el de reportes previos sobre la distribución de dichas especies en Colombia.Conclusiones. La técnica de la PCR-hsp70 y el análisis de RFLP fueron útiles para identificar las especies de Leishmania aisladas de muestras clínicas de Colombia y pueden aplicarse también en el estudio de cepas de vectores y reservorios de importancia epidemiológica

Single locus genotyping to track Leishmania donovani in the Indian subcontinent: Application in Nepal

Background We designed a straightforward method for discriminating circulating Leishmania populations in the Indian subcontinent (ISC). Research on transmission dynamics of visceral leishmaniasis (VL, or Kala-azar) was recently identified as one of the key research priorities for elimination of the disease in the ISC. VL in Bangladesh, India, and Nepal is caused by genetically homogeneous populations of Leishmania donovani parasites, transmitted by female sandflies. Classical methods to study diversity of these protozoa in other regions of the world, such as microsatellite typing, have proven of little use in the area, as they are not able to discriminate most genotypes. Recently, whole genome sequencing (WGS) so far identified 10 different populations termed ISC001-ISC010. Methodology / Principle findings As an alternative to WGS for epidemiological or clinical studies, we designed assays based on PCR amplification followed by dideoxynucleotide sequencing for identification of the nonrecombinant genotypes ISC001 up to ISC007. These assays were applied on 106 parasite isolates collected in Nepal between 2011 and 2014. Combined with data from WGS on strains collected in the period 2002–2011, we provide a proof-of-principle for the application of genotyping to study treatment outcome, and differential geographic distribution. Conclusions / Significance Our method can aid in epidemiological follow-up of visceral leishmaniasis in the Indian subcontinent, a necessity in the frame of the Kala-azar elimination initiative in the region

Genome analysis of triploid hybrid Leishmania parasite from the Neotropics

We discovered a hybrid Leishmania parasite in Costa Rica that is genetically similar to hybrids from Panama. Genome analyses demonstrated the hybrid is triploid and identified L. braziliensis and L. guyanensis-related strains as parents. Our findings highlight the existence of poorly sampled Leishmania (Viannia) variants infectious to humans

Comparison of Leishmania typing results obtained from 16 European clinical laboratories in 2014.

Leishmaniasis is endemic in southern Europe, and in other European countries cases are diagnosed in travellers who have visited affected areas both within the continent and beyond. Prompt and accurate diagnosis poses a challenge in clinical practice in Europe. Different methods exist for identification of the infecting Leishmania species. Sixteen clinical laboratories in 10 European countries, plus Israel and Turkey, conducted a study to assess their genotyping performance. DNA from 21 promastigote cultures of 13 species was analysed blindly by the routinely used typing method. Five different molecular targets were used, which were analysed with PCR-based methods. Different levels of identification were achieved, and either the Leishmania subgenus, species complex, or actual species were reported. The overall error rate of strains placed in the wrong complex or species was 8.5%. Various reasons for incorrect typing were identified. The study shows there is considerable room for improvement and standardisation of Leishmania typing. The use of well validated standard operating procedures is recommended, covering testing, interpretation, and reporting guidelines. Application of the internal transcribed spacer 1 of the rDNA array should be restricted to Old World samples, while the heat-shock protein 70 gene and the mini-exon can be applied globally

Identification of cell-of-origin breast tumor subtypes in inflammatory breast cancer by gene expression profiling

Inflammatory breast cancer (IBC) is an aggressive form of locally advanced breast cancer with high metastatic potential. Most patients have lymph node involvement at the time of diagnosis and 1/3 of the patients have distant metastases. In a previous study, we demonstrated that IBC is a distinct form of breast cancer in comparison with non-IBC. The aim of this study was to investigate the presence of the different molecular subtypes in our data set of 16 IBC and 18 non-IBC specimen. Therefore, we selected an ‘intrinsic gene set’ of 144 genes, present on our cDNA chips and common to the ‘intrinsic gene set’ described by Sorlie et al. [PNAS, 2003]. This set of genes was tested for performance in the Norway/Stanford data set by unsupervised hierarchical clustering. Expression centroids were then calculated for the core members of each of the five subclasses in the Norway/Stanford data set and used to classify our own specimens by calculating Spearman correlations between each sample and each centroid. We identified the same cell-of-origin subtypes in IBC as those already described in non-IBC. The classification was in good agreement with immunohistochemical data for estrogen receptor protein expression and cytokeratin 5/6 protein expression. Confirmation was done by an alternative unsupervised hierarchical clustering method. The robustness of this classification was assessed by an unsupervised hierarchical clustering with an alternative gene set of 141 genes related to the cell-of-origin subtypes, selected using a discriminating score and iterative random permutation testing. The contribution of the different cell-of-origin subtypes to the IBC phenotype was investigated by principal component analysis. Generally, the combined ErbB2-overexpressing and basal-like cluster was more expressed in IBC compared to non-IBC, whereas the combined luminal A, luminal B and normal-like cluster was more pronounced in non-IBC compared to IBC. The presence of the same molecular cell-of-origin subtypes in IBC as in non-IBC does not exclude the specific molecular nature of IBC, since gene lists that characterize IBC and non-IBC are entirely different from gene lists that define the different cell-of-origin subtypes, as evidenced by principal component analysis.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/44236/1/10549_2005_Article_9015.pd

Comparative Gene Expression Analysis throughout the Life Cycle of Leishmania braziliensis: Diversity of Expression Profiles among Clinical Isolates

Leishmania is a group of parasites (Protozoa, Trypanosomatidae) responsible for a wide spectrum of clinical forms. Among the factors explaining this phenotypic polymorphism, parasite features are important contributors. One approach to identify them consists in characterizing the gene expression profiles throughout the life cycle. In a recent study, the transcriptome of 3 Leishmania species was compared and this revealed species-specific differences, albeit in a low number. A key issue, however, is to ensure that the observed differences are indeed species-specific and not specific of the strains selected for representing the species. In order to illustrate the relevance of this concern, we analyzed here the gene expression profiles of 5 clinical isolates of L. braziliensis at seven time points of the life cycle. Our results clearly illustrate the unique character of each isolate in terms of gene expression dynamics: one Leishmania strain is not necessarily representative of a given species

Canine Brachycephaly is Associated with a Retrotransposon-Mediated Missplicing of SMOC2

In morphological terms, “form” is used to describe an object’s shape and size. In dogs, facial form is stunningly diverse. Facial retrusion, the proximodistal shortening of the snout and widening of the hard palate is common to brachycephalic dogs and is a welfare concern, as the incidence of respiratory distress and ocular trauma observed in this class of dogs is highly correlated with their skull form. Progress to identify the molecular underpinnings of facial retrusion is limited to association of a missense mutation in BMP3 among small brachycephalic dogs. Here, we used morphometrics of skull isosurfaces derived from 374 pedigree and mixed-breed dogs to dissect the genetics of skull form. Through deconvolution of facial forms, we identified quantitative trait loci that are responsible for canine facial shapes and sizes. Our novel insights include recognition that the FGF4 retrogene insertion, previously associated with appendicular chondrodysplasia, also reduces neurocranium size. Focusing on facial shape, we resolved a quantitative trait locus on canine chromosome 1 to a 188-kb critical interval that encompasses SMOC2. An intronic, transposable element within SMOC2 promotes the utilization of cryptic splice sites, causing its incorporation into transcripts, and drastically reduces SMOC2 gene expression in brachycephalic dogs. SMOC2 disruption affects the facial skeleton in a dose-dependent manner. The size effects of the associated SMOC2 haplotype are profound, accounting for 36% of facial length variation in the dogs we tested. Our data bring new focus to SMOC2 by highlighting its clinical implications in both human and veterinary medicine