Abstract
BackgroundVisceral leishmaniasis (VL) is a major neglected disease, potentially fatal, whose control is still impaired by inefficient and/or expensive treatment and diagnostic methods. The most promising approach for VL diagnosis uses serological assays with recombinant proteins, since they are more efficient and easier to perform. Tests developed for the human form of the disease, however, have not been shown to be efficient for its diagnosis in the canine host, the major reservoir for the American VL.Methodology/Principal findingsHere, we describe a systematic approach aimed at the production of a new chimeric protein potentially able to be used for both human and canine VL diagnosis and based both on in silico gene design and experimental data. Starting from the previous identification of Leishmania infantum recombinant antigens efficient for the diagnosis of either human or canine VL, three of the best performing antigens were selected (Lci2, Lci3 and Lci12). After a preliminary evaluation validating the chimeric approach, DNA fragments encoding predicted antigenic regions from each protein, enriched with repeats, were joined in various combinations to generate a total of seventeen chimeric genes optimized for prokaryotic expression. These were assessed for optimal expression and purification yield, with four chimeric proteins being efficiently produced. Their diagnostic potential was then evaluated through ELISA assays with sera from VL afflicted humans and dogs. After two rounds of gene design, the results showed high levels of sensitivity for the best chimeric protein, named Q5, in humans (82%) and dogs (100%) with 100% specificity in comparison with healthy controls. A single non-specific reaction was seen with serum from individuals with tegumentary leishmaniasis.ConclusionThe newly described chimeric protein is potentially useful for the detection of both humans and dogs afflicted with VL, with its use in rapid tests necessary for validation as a new diagnostic tool.
Highlights
The leishmaniases are a group of infectious-parasitic diseases caused by flagellated protozoa belonging to the family Trypanosomatidae, genus Leishmania
The newly described chimeric protein is potentially useful for the detection of both humans and dogs afflicted with Visceral leishmaniasis (VL), with its use in rapid tests necessary for validation as a new diagnostic tool
Through the screening of genomic and cDNA expression libraries, we have previously identified several novel L. infantum antigens with the potential to improve the serological diagnosis of either dogs or humans afflicted with VL [16,17,18]
Summary
The leishmaniases are a group of infectious-parasitic diseases caused by flagellated protozoa belonging to the family Trypanosomatidae, genus Leishmania. These parasites have a heteroxenic life cycle, living alternatively in vertebrate hosts (man and other wild and/or domestic mammals) and insect sandfly vectors. The leishmaniases are found in most tropical and subtropical countries and are considered a major global public health problem [1]. In humans, these diseases are present in three main clinical forms: cutaneous, mucocutaneous and visceral leishmaniasis. Tests developed for the human form of the disease, have not been shown to be efficient for its diagnosis in the canine host, the major reservoir for the American VL
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