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5XIH

Crystal Structure of Toxoplasma gondii Prolyl-tRNA Synthetase (TgPRS) in complex with inhibitor 5

Summary for 5XIH
Entry DOI10.2210/pdb5xih/pdb
Related5XIF 5XIG 5XII 5XIJ 5XIK 5XIL 5XIO 5XIP 5XIQ
DescriptorProlyl-tRNA synthetase (ProRS), PHOSPHOAMINOPHOSPHONIC ACID-ADENYLATE ESTER, MAGNESIUM ION, ... (6 entities in total)
Functional Keywordsprotein translation, prs, synthetase, inhibitor, infectious disease, ligase
Biological sourceToxoplasma gondii (strain ATCC 50611 / Me49)
Total number of polymer chains4
Total formula weight235466.26
Authors
Jain, V.,Manickam, Y.,Sharma, A. (deposition date: 2017-04-26, release date: 2018-03-07, Last modification date: 2023-11-22)
Primary citationJain, V.,Yogavel, M.,Kikuchi, H.,Oshima, Y.,Hariguchi, N.,Matsumoto, M.,Goel, P.,Touquet, B.,Jumani, R.S.,Tacchini-Cottier, F.,Harlos, K.,Huston, C.D.,Hakimi, M.A.,Sharma, A.
Targeting Prolyl-tRNA Synthetase to Accelerate Drug Discovery against Malaria, Leishmaniasis, Toxoplasmosis, Cryptosporidiosis, and Coccidiosis
Structure, 25:1495-1505.e6, 2017
Cited by
PubMed Abstract: Developing anti-parasitic lead compounds that act on key vulnerabilities are necessary for new anti-infectives. Malaria, leishmaniasis, toxoplasmosis, cryptosporidiosis and coccidiosis together kill >500,000 humans annually. Their causative parasites Plasmodium, Leishmania, Toxoplasma, Cryptosporidium and Eimeria display high conservation in many housekeeping genes, suggesting that these parasites can be attacked by targeting invariant essential proteins. Here, we describe selective and potent inhibition of prolyl-tRNA synthetases (PRSs) from the above parasites using a series of quinazolinone-scaffold compounds. Our PRS-drug co-crystal structures reveal remarkable active site plasticity that accommodates diversely substituted compounds, an enzymatic feature that can be leveraged for refining drug-like properties of quinazolinones on a per parasite basis. A compound we termed In-5 exhibited a unique double conformation, enhanced drug-like properties, and cleared malaria in mice. It thus represents a new lead for optimization. Collectively, our data offer insights into the structure-guided optimization of quinazolinone-based compounds for drug development against multiple human eukaryotic pathogens.
PubMed: 28867614
DOI: 10.1016/j.str.2017.07.015
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.2 Å)
Structure validation

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