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Amplicon Sequencing Reveals Complex Infection in Infants Congenitally Infected With <i>Trypanosoma Cruzi</i> and Informs the Dynamics of Parasite Transmission

Jill Hakim, Andreea Waltmann, Freddy Tinajeros, Oksana Kharabora, Edith Málaga, Maritza Calderón, María del Carmen Menduiña, Jeremy Wang, Daniel Rueda, Mirko Zimic, Manuela Verástegui, Jonathan J. Juliano, Robert H. Gilman, Monica R. Mugnier, Natalie M. Bowman, Chagas Working Group

2023The Journal of Infectious Diseases23 citationsDOIOpen Access PDF

Abstract

Congenital transmission of Trypanosoma cruzi is an important source of new Chagas infections worldwide. The mechanisms of congenital transmission remain poorly understood, but there is evidence that parasite factors are involved. Investigating changes in parasite strain diversity during transmission could provide insight into the parasite factors that influence the process. Here we use amplicon sequencing of a single copy T. cruzi gene to evaluate the diversity of infection in clinical samples from Chagas positive mothers and their infected infants. Several infants and mothers were infected with multiple parasite strains, mostly of the same TcV lineage, and parasite strain diversity was higher in infants than mothers. Two parasite haplotypes were detected exclusively in infant samples, while one haplotype was never found in infants. Together, these data suggest multiple parasites initiate a congenital infection and that parasite factors influence the probability of vertical transmission.

Topics & Concepts

Trypanosoma cruziParasite hostingBiologyTransmission (telecommunications)Chagas diseaseHaplotypeAmpliconVirologyGeneticsGeneGenotypePolymerase chain reactionElectrical engineeringEngineeringWorld Wide WebComputer scienceTrypanosoma species research and implicationsInsect symbiosis and bacterial influences
Amplicon Sequencing Reveals Complex Infection in Infants Congenitally Infected With <i>Trypanosoma Cruzi</i> and Informs the Dynamics of Parasite Transmission | Litcius