CRISPR Genome Editing and the Study of Chagas Disease.

Abstract

Chagas disease, caused by the protozoan parasite Trypanosoma cruzi, is an illness that affects 6-8million people worldwide and is responsible for approximately 50,000 deaths per year. Despite intense research efforts on Chagas disease and its causative agent, there is still a lack of effective treatments or strategies for disease control. Although significant progress has been made toward the elucidation of molecular mechanisms involved in host-parasite interactions, particularly immune evasion mechanisms, a deeper understanding of these processes has been hindered by a lack of efficient genetic manipulation protocols. One major challenge is the fact that several parasite virulence factors are encoded by multigene families, which constitute a distinctive feature of the T. cruzi genome. The recent advent of the CRISPR/Cas9 technology represented an enormous breakthrough in the studies involving T. cruzi genetic manipulation compared to previous protocols that are poorly efficient and required a long generation time to develop parasite mutants. Since the first publication of CRISPR gene editing in T. cruzi, in 2014, different groups have used distinct protocols to generated knockout mutants, parasites overexpressing a protein or expressing proteins with sequence tags inserted in the endogenous gene. Importantly, CRISPR gene editing allowed generation of parasite mutants with gene disruption in multi-copy gene families. We described four main strategies used to edit the T. cruzi genome and summarized a large list of studies performed by different groups in the past 7years that are addressing several mechanisms involved with parasite proliferation, differentiation, and survival strategies within its different hosts.