Abstract
Trypanosoma cruzi is exposed during its life to exogenous and endogenous oxidative stress, leading to damage of several macromolecules such as DNA. There are many DNA repair pathways in the nucleus and mitochondria (kinetoplast), where specific protein complexes detect and eliminate damage to DNA. One group of these proteins is the DNA polymerases. In particular, Tc DNA polymerase β participates in kinetoplast DNA replication and repair. However, the mechanisms which control its expression under oxidative stress are still unknown. Here we describe the effect of oxidative stress on the expression and function of Tc DNA polymerase β To this end parasite cells (epimastigotes and trypomastigotes) were exposed to peroxide during short periods of time. Tc DNA polymerase β which was associated physically with kinetoplast DNA, showed increased protein levels in response to peroxide damage in both parasite forms analyzed. Two forms of DNA polymerase β were identified and overexpressed after peroxide treatment. One of them was phosphorylated and active in DNA synthesis after renaturation on polyacrylamide electrophoresis gel. This phosphorylated form showed 3-4-fold increase in both parasite forms. Our findings indicate that these increments in protein levels are not under transcriptional control because the level of Tc DNA polymerase β mRNA is maintained or slightly decreased during the exposure to oxidative stress. We propose a mechanism where a DNA repair pathway activates a cascade leading to the increment of expression and phosphorylation of Tc DNA polymerase β in response to oxidative damage, which is discussed in the context of what is known in other trypanosomes which lack transcriptional control.
Highlights
Trypanosoma cruzi, a flagellated protozoan, is the causative agent of Chagasdisease (CD), which constitutes a major public health problem in Latin America
The increment of T. cruzi (Tc) DNA polymerase β was not correlated with changes in mRNA levels, indicating absence of transcriptional control
We propose a mechanism where hydrogen peroxide treatment activates a pathway leading to expression and phosphorylation of Tc DNA polymerase β in response to oxidative damage
Summary
Trypanosoma cruzi, a flagellated protozoan, is the causative agent of Chagasdisease (CD), which constitutes a major public health problem in Latin America. There is currently no vaccine against Trypanosoma cruzi and the treatment of CD has limited efficacy and cause severe side effects [2]. There is a critical need to develop new chemotherapeutic agents and vaccines to control CD. Knowledge of the basic cellular processes of this parasite will help the development of new compounds to target specific processes of this parasite. T. cruzi has a complex life cycle which includes different stages that alternate between invertebrate (insect vector) and vertebrate hosts, including humans. Each stage of differentiation expresses a pattern of stage-specific proteins involved in the process of invasion and survival of the parasite
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