Trypanosoma cruzi P21 Is a Pleiotropic Protein That Is Involved in Parasite Host Cell Invasion and Intracellular Parasitism.
Nelsa Paula Inácio Uombe, Teresiama Velikkakam, Anna Clara Azevedo Silveira, Cassiano Costa Rodrigues, Bruna Cristina Borges, Thaise Lara Teixeira, Cecília Luiza Pereira, João Paulo Silva Servato, Normanda Souza Melo, Renato Arruda Mortara, José Franco da Silveira, Claudio Vieira da Silva
Abstract
Open AccessWe characterized the secreted Trypanosoma cruzi P21 protein and hypothesized its role in parasite invasion and multiplication. To investigate the role of T. cruzi P21 protein in host-parasite interactions, specifically focusing on the low-virulence G strain. P21 knockout parasites were generated using CRISPR/Cas9. Cell invasion, multiplication, egress, and tissue parasitism were assessed in vitro and in vivo, comparing knockout and control parasites. P21 knockout significantly reduced parasite invasion and multiplication in Vero cells. In vivo, knockout parasites also showed reduced heart tissue parasitism in infected mice, despite no observable systemic parasitemia. Accordingly, P21 knockout trypomastigote egress was reduced in Vero cells. P21 plays a pleiotropic role in T. cruzi infection, differentially impacting parasite biology in the low-virulent G strain. In the G strain, P21 promotes invasion and persistence, potentially through mechanisms distinct from its role in the Y strain previously described. This highlights its potential as a therapeutic target for Chagas disease, warranting further investigation into strain-specific functions.