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- Title
Wide reference databases for typing Trypanosoma cruzi based on amplicon sequencing of the minicircle hypervariable region.
- Authors
Rusman, Fanny; Díaz, Anahí G.; Ponce, Tatiana; Floridia-Yapur, Noelia; Barnabé, Christian; Diosque, Patricio; Tomasini, Nicolás
- Abstract
Background: Trypanosoma cruzi, the etiological agent of Chagas Disease, exhibits remarkable genetic diversity and is classified into different Discrete Typing Units (DTUs). Strain typing techniques are crucial for studying T. cruzi, because their DTUs have significant biological differences from one another. However, there is currently no methodological strategy for the direct typing of biological materials that has sufficient sensitivity, specificity, and reproducibility. The high diversity and copy number of the minicircle hypervariable regions (mHVRs) makes it a viable target for typing. Methodology/Principal findings: Approximately 24 million reads obtained by amplicon sequencing of the mHVR were analyzed for 62 strains belonging to the six main T. cruzi DTUs. To build reference databases of mHVR diversity for each DTU and to evaluate this target as a typing tool. Strains of the same DTU shared more mHVR clusters than strains of different DTUs, and clustered together. Different identity thresholds were used to build the reference sets of the mHVR sequences (85% and 95%, respectively). The 95% set had a higher specificity and was more suited for detecting co-infections, whereas the 85% set was excellent for identifying the primary DTU of a sample. The workflow's capacity for typing samples obtained from cultures, a set of whole-genome data, under various simulated PCR settings, in the presence of co-infecting lineages and for blood samples was also assessed. Conclusions/Significance: We present reference databases of mHVR sequences and an optimized typing workflow for T. cruzi including a simple online tool for deep amplicon sequencing analysis (https://ntomasini.github.io/cruzityping/). The results show that the workflow displays an equivalent resolution to that of the other typing methods. Owing to its specificity, sensitivity, relatively low cost, and simplicity, the proposed workflow could be an alternative for screening different types of samples. Author summary: Chagas disease, caused by the parasite Trypanosoma cruzi, is a significant public health concern in Latin America. This parasite is genetically diverse and classified into different lineages. Proper strain typing techniques are necessary to study T. cruzi, because their lineages have significant biological differences. Several typing methods have been proposed, each of which has its own strengths and limitations. However, most of these methods lack sensitivity or fail for discriminating some lineages. Genetic markers with high copy numbers are required to gain sensitivity. Here, we deep sequenced DNA regions present in the large mitochondrion of the parasite (mHVRs) from strains belonging to the six main lineages to obtain reference mHVR sequences and develop a typing workflow. Amplicon sequencing of mHVR was conducted on 62 T. cruzi strains. Despite high sequence diversity, strains of the same lineage shared more sequences than strains of different lineages. Two reference sets of mHVR sequences were generated and evaluated for their ability to typify distinct types of T. cruzi samples. The workflow presented in this study could serve as a valuable resource for T. cruzi typing in future studies.
- Subjects
TRYPANOSOMA cruzi; HYPERVARIABLE regions; CHAGAS' disease; GENETIC markers; PUBLIC health; GENETIC variation
- Publication
PLoS Neglected Tropical Diseases, 2023, Vol 17, Issue 11, p1
- ISSN
1935-2727
- Publication type
Article
- DOI
10.1371/journal.pntd.0011764