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1. High Throughput Screen Identifies Interferon γ-Dependent Inhibitors of Toxoplasma gondii Growth.

Author

Radke JB, Carey KL, Shaw S, Metkar SR, Mulrooney C, Gale JP, Bittker JA, Hilgraf R, Comer E, Schreiber SL, Virgin HW, Perez JR, and Sibley LD

Subjects

Autophagy physiology, Green Fluorescent Proteins metabolism, Growth Inhibitors chemistry, HeLa Cells, Humans, Immunity, Innate, Linear Models, Luciferases analysis, Microtubule-Associated Proteins metabolism, Protein Binding, Small Molecule Libraries, Stereoisomerism, Th1 Cells immunology, Vacuoles metabolism, Growth Inhibitors analysis, Growth Inhibitors metabolism, High-Throughput Screening Assays methods, Interferon-gamma metabolism, Toxoplasma growth & development

Abstract

Toxoplasma gondii is an obligate intracellular parasite capable of causing severe disease due to congenital infection and in patients with compromised immune systems. Control of infection is dependent on a robust Th1 type immune response including production of interferon gamma (IFN-γ), which is essential for control. IFN-γ activates a variety of antimicrobial mechanisms in host cells, which are then able to control intracellular parasites such as T. gondii. Despite the effectiveness of these pathways in controlling acute infection, the immune system is unable to eradicate chronic infections that can persist for life. Similarly, while antibiotic treatment can control acute infection, it is unable to eliminate chronic infection. To identify compounds that would act synergistically with IFN-γ, we performed a high-throughput screen of diverse small molecule libraries to identify inhibitors of T. gondii. We identified a number of compounds that inhibited parasite growth in vitro at low μM concentrations and that demonstrated enhanced potency in the presence of a low level of IFN-γ. A subset of these compounds act by enhancing the recruitment of light chain 3 (LC3) to the parasite-containing vacuole, suggesting they work by an autophagy-related process, while others were independent of this pathway. The pattern of IFN-γ dependence was shared among the majority of analogs from 6 priority scaffolds, and analysis of structure activity relationships for one such class revealed specific stereochemistry associated with this feature. Identification of these IFN-γ-dependent leads may lead to development of improved therapeutics due to their synergistic interactions with immune responses.

Published

2018