Update on the Biological Relevance of Lysine Acetylation as a Novel Drug Target in Trypanosomatids.

The number of acetylated proteins identified from bacteria to mammals has grown exponentially in the last ten years, and it is now accepted that acetylation is a key component in most eukaryotic signaling pathways and is as important as phosphorylation. The enzymes involved in this process are well described in mammals; acetyltransferases and deacetylases are found inside and outside the nuclear compartment and have different regulatory functions. In trypanosomatids, several of these enzymes have been described and are postulated to be novel antiparasitic targets for the rational design of drugs. In this review article, we present an update of the most important known acetylated proteins in trypanosomatids, analyzing the acetylomes available. Also, we summarize the information available regarding acetyltransferases and deacetylases in trypanosomes and their potential use as chemotherapeutic targets.

Protein acetylation in the critical biological processes in protozoan parasites.

Protein lysine acetylation has emerged as a major regulatory post-translational modification in different organisms, present not only on histone proteins affecting chromatin structure and gene expression but also on nonhistone proteins involved in several cellular processes. The same scenario was observed in protozoan parasites after the description of their acetylomes, indicating that acetylation might regulate crucial biological processes in these parasites. The demonstration that glycolytic enzymes are regulated by acetylation in protozoans shows that this modification might regulate several other processes implicated in parasite survival and adaptation during the life cycle, opening the chance to explore the regulatory acetylation machinery of these parasites as drug targets for new treatment development.