Poster

  • P099

Biochemical and Molecular Elucidation of Hydroquinine Mechanism(s) of Action against T. gondii

Presented in

Poster Session I (continued)

Poster topics

Authors

Professor Daniel A. Abugri (Montgomery, AL / US), Dr. Joseph A. Ayariga (Montgomery, AL / US), Dr. Melissa D. Boersma (Auburn, AL / US), Dr. Boakai K Robertson (Montgomery, AL / US)

Abstract

Hydroquinine also known as dihydroquinine (DHQ), is a quinine-derived compound. DHQ has a history of inhibiting Plasmodium falciparum, and Plasmodium berghei, and possesses anti-arrhythmia properties. Though, previous studies in Plasmodium spp have shown its target to be nucleic acids and protein synthesis. Our team recently showed that it disrupts mitochondria membrane potential, upregulates ROS production, and depletes ATP production in T. gondii. To unify these observations with previously identified targets, we tested for the first time the effect of DHQ on T. gondii tachyzoites metabolites and lipid production in a concentration dependent manner. Interestingly, the multi-omics (metabolomics and lipidomics) studies showed that DHQ affects certain lipid classes, nucleic acid precursors, and amino acid synthesis in a concentration-dependent manner. Also, for the first time, in silico analysis showed that DHQ binds strongly to DNA gyrase, Calcium Dependent Protein Kinase 1 (CDPK 1), and prolyl tRNA synthetase and thus could affect DNA replication and translational activities in T. gondii. In summary, our findings indicate that DHQ will be an effective anti-T. gondii agent and could be further developed for clinical use.

Keywords: Dihydroquinine, metabolomics, lipidomic, DNA Gyrase, tRNA Synthetase, Calcium Dependent Protein Kinases, T. gondii

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