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Item Evaluating the GCN5b bromodomain as a novel therapeutic target against the parasite Toxoplasma gondii(Elsevier, 2020-02-28) Hanquier, Jocelyne; Gimeno, Thomas; Jeffers, Victoria; Sullivan, William J., Jr.; Microbiology and Immunology, School of MedicineToxoplasma gondii is a protozoan parasite of great importance in human and veterinary health. The frontline treatment of antifolates suffers a variety of drawbacks, including toxicity and allergic reactions, underscoring the need to identify novel drug targets for new therapeutics to be developed. We previously showed that the Toxoplasma lysine acetyltransferase (KAT) GCN5b is an essential chromatin remodeling enzyme in the parasite linked to the regulation of gene expression. We have previously established that the KAT domain is a liability that can be targeted in the parasite by compounds like garcinol; here, we investigate the potential of the bromodomain as a targetable element of GCN5b. Bromodomains bind acetylated lysine residues on histones, which helps stabilize the KAT complex at gene promoters. Using an inducible dominant-negative strategy, we found that the GCN5b bromodomain is critical for Toxoplasma viability. We also found that the GCN5-family bromodomain inhibitor, L-Moses, interferes with the ability of the GCN5b bromodomain to associate with acetylated histone residues using an in vitro binding assay. Moreover, L-Moses displays potent activity against Toxoplasma tachyzoites in vitro, which can be overcome if parasites are engineered to over-express GCN5b. Collectively, our data support the GCN5b bromodomain as an attractive target for the development of new therapeutics.Item Investigating the Function and Therapeutic Potential of the GCN5b Bromodomain in Toxoplasma Gondii(2020-06) Hanquier, Jocelyne Nicole; Sullivan, William J., Jr.; Arrizabalaga, Gustavo; Gilk, StaceyThe obligate intracellular protozoan parasite Toxoplasma gondii is a medically relevant pathogen that has infected a third of the world’s population. Toxoplasma is the causative agent of toxoplasmosis, which can have severe repercussions such as encephalitis and even death in immunocompromised patients. Current treatments for toxoplasmosis only target acute infection and can be toxic to patients, resulting in complications including allergy and bone marrow suppression. Thus, the identification of novel drug targets and therapies for toxoplasmosis is vital. Epigenetic modulators of lysine acetylation, including ‘writers,’ ‘erasers,’ and ‘readers,’ have been identified as promising drug targets for protozoan parasites. The lysine acetyltransferase (KAT) GCN5b appears to be an essential gene for Toxoplasma viability. The KAT domain of GCN5b is essential to GCN5b function and is targetable by small molecule inhibitors. While the acetyltransferase activity of this gene is well-characterized, the functionality of its C-terminal bromodomain (BRD) remains to be understood. Bromodomains are readers of lysine acetylation, and recently, bromodomain inhibitors have shown promise in a number of human diseases, as well as in protozoan parasites. We hypothesized that the GCN5b bromodomain is critical for Toxoplasma viability. The data reported herein suggest that the GCN5b bromodomain is important for tachyzoite viability and may serve as a novel therapeutic target in Toxoplasma.