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Development of peptide-based lineage-specific serology for chronic Chagas disease : Geographical and clinical distribution of epitope recognition
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Bhattacharyya, Tapan
Falconar, Andrew K.
Luquetti, Alejandro O.
Costales, Jaime A.
Grijalva, Mario J.
Lewis, Michael D.
Messenger, Louisa A.
Tran, Trang T.
Ramírez, Juan David
Guhl, Felipe
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2014
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Abstract
Background:Chagas disease, caused by infection with the protozoan Trypanosoma cruzi, remains a serious public health issue in Latin America. Genetically diverse, the species is sub-divided into six lineages, known as TcI-TcVI, which have disparate geographical and ecological distributions. TcII, TcV, and TcVI are associated with severe human disease in the Southern Cone countries, whereas TcI is associated with cardiomyopathy north of the Amazon. T. cruzi persists as a chronic infection, with cardiac and/or gastrointestinal symptoms developing years or decades after initial infection. Identifying an individual's history of T. cruzi lineage infection directly by genotyping of the parasite is complicated by the low parasitaemia and sequestration in the host tissues.Methodology/Principal Findings:We have applied here serology against lineage-specific epitopes of the T. cruzi surface antigen TSSA, as an indirect approach to allow identification of infecting lineage. Chagasic sera from chronic patients from a range of endemic countries were tested by ELISA against synthetic peptides representing lineage-specific TSSA epitopes bound to avidin-coated ELISA plates via a biotin labelled polyethylene glycol-glycine spacer to increase rotation and ensure each amino acid side chain could freely interact with their antibodies. 79/113 (70%) of samples from Brazil, Bolivia, and Argentina recognised the TSSA epitope common to lineages TcII/TcV/TcVI. Comparison with clinical information showed that a higher proportion of Brazilian TSSApep-II/V/VI responders had ECG abnormalities than non-responders (38% vs 17%; p<0.0001). Among northern chagasic sera 4/20 (20%) from Ecuador reacted with this peptide; 1/12 Venezuelan and 1/34 Colombian samples reacted with TSSApep-IV. In addition, a proposed TcI-specific epitope, described elsewhere, was demonstrated here to be highly conserved across lineages and therefore not applicable to lineage-specific serology.Conclusions/Significance:These results demonstrate the considerable potential for synthetic peptide serology to investigate the infection history of individuals, geographical and clinical associations of T. cruzi lineages. © 2014 Bhattacharyya et al.
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Antibody , Protozoan , Trypanosoma , Avidin , Protozoan , Biotin , Glycine , Macrogol , Parasite Antigen , Synthetic Peptide , Epitope , Parasite Antigen , Peptide , Protozoon Antibody , Trypomastigote Small Surface Antigen , Variant Surface Glycoprotein , Algorithm , Animal Experiment , Antibody Response , Antibody Specificity , Antibody Specificity , Antigen Recognition , Brazil , Cell Lineage , Cell Lysate , Chagas Disease , Chronic Disease , Comparative Study , Controlled Study , Ecg Abnormality , Enzyme Linked Immunosorbent Assay , Genotyping Technique , Geographic Distribution , Human , Immunogenicity , Major Clinical Study , Mouse , Nonhuman , Nucleotide Sequence , Parasite Identification , Peptide Synthesis , Polymerase Chain Reaction , Serology , South America , Trypanosoma Cruzi , Amino Acid Sequence , Animal , Biology , Blood , Chagas Disease , Chemistry , Classification , Immunology , Molecular Genetics , Parasitology , Procedures , Serotyping , Triatoma , Algorithms , Amino Acid Sequence , Animals , Antibodies , Antigens , Chagas Disease , Computational Biology , Epitopes , Mice , Molecular Sequence Data , Peptides , Serotyping , South America , Triatoma , Trypanosoma Cruzi , Variant Surface , Glycoproteins
