Abstract
Leishmaniasis is caused by protozoan parasites from the genus Leishmania and remains one of the major threats to global health, impacting millions of people worldwide as well as animals including dogs. Several treatments have been used for managing leishmaniasis; nevertheless, drug resistance has emerged as an important obstacle to disease control. Therefore, there is an urgent need to discover new therapeutic targets. The aim of this work was to study the role played by the breast cancer associated 1 C-terminal (BRCT) domain from LmjPES protein (Pescadillo ribosomal biogenesis factor) in Leishmania major's pathogenesis through the construction of novel genomic tools. For this purpose, Leishmania integrative plasmids that were able to express the BRCT domain from LmjPES and a hypothetical defective LmjPES lacking this BRCT domain were constructed. It was observed that the overexpression of the aforementioned BRCT domain in L. major dysregulated the mRNA expression of 152 genes (95 up-regulated and 57 down-regulated) in respect to control parasites. Furthermore, clustering studies of these altered genes revealed an enrichment in genes related to metabolic processes, transporter activity, response to stimuli, and protein folding, which are categories described to be associated with the metacyclogenesis process and parasite survival. Interestingly, these genes reached normal levels of expression in parasites transfected with a defective LmjPES (a mutated gene lacking the coding sequence of the BRCT domain). In addition, it was found that the footpad of mice inoculated with LmjPES BRCT-overexpressing parasites had significantly greater inflammation compared to the size of the footpad of animals infected with the control parasites. Based on all these results, it was suggested that the BRCT domain from LmjPES might play a role in L. major's infection process and pathogenesis.