Sequence diversity of cytotoxic T cell antigens and satellite marker analysis of Theileria parva informs the immunization against East Coast fever in Rwanda

Autor:	Antony Jim Musoke, Boniface Namangala, Walter Muleya, Jeremy Salt, Thomas Bazarusanga, Isidore Gafarasi, David Kalenzi Atuhaire, Victor Mbao
Jazyk:	angličtina
Rok vydání:	2020
Předmět:	Genetic Markers Protozoan Vaccines 0301 basic medicine Sub-structuring T-Lymphocytes Theileria parva Genes Protozoan 030231 tropical medicine Muguga cocktail Cattle Diseases Tp1 Antigens Protozoan Enzyme-Linked Immunosorbent Assay Tp2 DNA Satellite Polymerase Chain Reaction lcsh:Infectious and parasitic diseases 03 medical and health sciences Antigenic Diversity 0302 clinical medicine Genotype Animals East Coast fever lcsh:RC109-216 Seroconversion ECF Phylogeny Genetic diversity Polymorphism Genetic biology Research Vaccination Rwanda Genetic Variation biology.organism_classification Antigenic Variation Virology Theileriasis 030104 developmental biology Infectious Diseases Parasitology Cattle Immunization
Zdroj:	Parasites & Vectors, Vol 13, Iss 1, Pp 1-20 (2020) Parasites & Vectors
ISSN:	1756-3305
Popis:	Background East Coast fever (ECF) caused by Theileria parva is endemic in Rwanda. In this study, the antigenic and genetic diversity of T. parva coupled with immunization and field challenge were undertaken to provide evidence for the introduction of ECF immunization in Rwanda. Methods Blood collected from cattle in the field was screened for T. parva using ELISA and PCR targeting the p104 gene. Tp1 and Tp2 gene sequences were generated from field samples and from Gikongoro and Nyakizu isolates. Furthermore, multilocus genotype data was generated using 5 satellite markers and an immunization challenge trial under field conditions using Muguga cocktail vaccine undertaken. Results Out of 120 samples, 44 and 20 were positive on ELISA and PCR, respectively. Antigenic diversity of the Tp1 and Tp2 gene sequences revealed an abundance of Muguga, Kiambu and Serengeti epitopes in the samples. A further three clusters were observed on both Tp1 and Tp2 phylogenetic trees; two clusters comprising of field samples and vaccine isolates and the third cluster comprising exclusively of Rwanda samples. Both antigens exhibited purifying selection with no positive selection sites. In addition, satellite marker analysis revealed that field samples possessed both shared alleles with Muguga cocktail on all loci and also a higher proportion of unique alleles. The Muguga cocktail (Muguga, Kiambu and Serengeti) genotype compared to other vaccine isolates, was the most represented in the field samples. Further low genetic sub-structuring (FST = 0.037) coupled with linkage disequilibrium between Muguga cocktail and the field samples was observed. Using the above data to guide a field immunization challenge trial comprising 41 immunized and 40 control animals resulted in 85% seroconversion in the immunized animals and an efficacy of vaccination of 81.7%, implying high protection against ECF. Conclusions Antigenic and genetic diversity analysis of T. parva facilitated the use of Muguga cocktail vaccine in field conditions. A protection level of 81.7% was achieved, demonstrating the importance of combining molecular tools with field trials to establish the suitability of implementation of immunization campaigns. Based on the information in this study, Muguga cocktail immunization in Rwanda has a potential to produce desirable results.
Databáze:	OpenAIRE
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