1qng Citations

The three-dimensional structure of a Plasmodium falciparum cyclophilin in complex with the potent anti-malarial cyclosporin A.

Peterson MR, Hall DR, Berriman M, Nunes JA, Leonard GA, Fairlamb AH, Hunter WN
J Mol Biol 298 123-33 (2000)
Cited: 30 times
EuropePMC logo PMID: 10756109

Abstract

Cyclosporin A (CsA) is a potent anti-malarial compound in vitro and in vivo in mice though better known for its immunosuppressive properties in humans. Crystal structures of wild-type and a double mutant Plasmodium falciparum cyclophilin (PfCyP19 and mPfCyP19) complexed with CsA have been determined using diffraction terms to a resolution of 2.1 A (1 A=0.1 nm). The wild-type has a single PfCyP19/CsA complex per asymmetric unit in space group P1 and refined to an R-work of 0.15 and R-free of 0.19. An altered cyclophilin, with two accidental mutations, Phe120 to Leu in the CsA binding pocket and Leu171 to Trp at the C terminus, presents two complexes per asymmetric unit in the orthorhombic space group P2(1)2(1)2. This refined to an R-work of 0.18 and R-free 0.21. The mutations were identified from the crystallographic analysis and the C-terminal alteration helps to explain the different crystal forms obtained. PfCyP19 shares approximately 61 % sequence identity with human cyclophilin A (hCyPA) and the structures are similar, consisting of an eight-stranded antiparallel beta-barrel core capped by two alpha-helices. The fold creates a hydrophobic active-site, the floor of which is formed by side-chains of residues from four antiparallel beta-strands and the walls from loops and turns. We identified C-H.O hydrogen bonds between the drug and protein that may be an important feature of cyclophilins and suggest a general mode of interaction between hydrophobic molecules. Comparisons with cyclophilin-dipeptide complexes suggests that a specific C-H.O hydrogen bonding interaction may contribute to ligand binding. Residues Ser106, His99 and Asp130, located close to the active site and conserved in most cyclophilins, are arranged in a manner reminiscent of a serine protease catalytic triad. A Ser106Ala mutant was engineered to test the hypothesis that this triad contributes to CyP function. Mutant and wild-type enzymes were found to have similar catalytic properties.

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  1. Peptidyl-prolyl cis-trans isomerases (immunophilins) and their roles in parasite biochemistry, host-parasite interaction and antiparasitic drug action. Bell A, Monaghan P, Page AP. Int J Parasitol 36 261-276 (2006)
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  2. Plasmodium falciparum calcineurin and its association with heat shock protein 90: mechanisms for the antimalarial activity of cyclosporin A and synergism with geldanamycin. Kumar R, Musiyenko A, Barik S. Mol Biochem Parasitol 141 29-37 (2005)
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  6. Primary identification, biochemical characterization, and immunologic properties of the allergenic pollen cyclophilin cat R 1. Ghosh D, Mueller GA, Schramm G, Edwards LL, Petersen A, London RE, Haas H, Gupta Bhattacharya S. J Biol Chem 289 21374-21385 (2014)
  7. A redox 2-Cys mechanism regulates the catalytic activity of divergent cyclophilins. Campos BM, Sforça ML, Ambrosio AL, Domingues MN, Brasil de Souza Tde A, Barbosa JA, Paes Leme AF, Perez CA, Whittaker SB, Murakami MT, Zeri AC, Benedetti CE. Plant Physiol 162 1311-1323 (2013)
  8. Structural and biochemical characterization of the cytosolic wheat cyclophilin TaCypA-1. Sekhon SS, Kaur H, Dutta T, Singh K, Kumari S, Kang S, Park SG, Park BC, Jeong DG, Pareek A, Woo EJ, Singh P, Yoon TS. Acta Crystallogr D Biol Crystallogr 69 555-563 (2013)
  9. Human Cyclophilin B forms part of a multi-protein complex during erythrocyte invasion by Plasmodium falciparum. Prakash P, Zeeshan M, Saini E, Muneer A, Khurana S, Kumar Chourasia B, Deshmukh A, Kaur I, Dabral S, Singh N, Anam Z, Chaurasiya A, Kaushik S, Dahiya P, Kalamuddin M, Kumar Thakur J, Mohmmed A, Ranganathan A, Malhotra P. Nat Commun 8 1548 (2017)
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  11. Structural basis of interaction between dimeric cyclophilin 1 and Myb1 transcription factor in Trichomonas vaginalis. Martin T, Lou YC, Chou CC, Wei SY, Sadotra S, Cho CC, Lin MH, Tai JH, Hsu CH, Chen C. Sci Rep 8 5410 (2018)
  12. A membrane-anchored Theileria parva cyclophilin with a non-cleaved amino-terminal signal peptide for entry into the endoplasmic reticulum. Ebel T, Pellé R, Janoo R, Lipp J, Bishop R. Vet Parasitol 121 65-77 (2004)
  13. C-H…O hydrogen bonds in FK506-binding protein-ligand interactions. Rajan S, Baek K, Yoon HS. J Mol Recognit 26 550-555 (2013)
  14. Structure-guided manipulation of the regioselectivity of the cyclosporine A hydroxylase CYP-sb21 from Sebekia benihana. Li F, Ma L, Zhang X, Chen J, Qi F, Huang Y, Qu Z, Yao L, Zhang W, Kim ES, Li S. Synth Syst Biotechnol 5 236-243 (2020)
  15. Evaluation of antiplasmodial activity in silico and in vitro of N-acylhydrazone derivatives. Oliveira FA, Pinto ACS, Duarte CL, Taranto AG, Lorenzato Junior E, Cordeiro CF, Carvalho DT, Varotti FP, Fonseca AL. BMC Chem 16 50 (2022)
  16. N-Terminal Segment of TvCyP2 Cyclophilin from Trichomonas vaginalis Is Involved in Self-Association, Membrane Interaction, and Subcellular Localization. Aryal S, Hsu HM, Lou YC, Chu CH, Tai JH, Hsu CH, Chen C. Biomolecules 10 E1239 (2020)
  17. A staphylococcal cyclophilin carries a single domain and unfolds via the formation of an intermediate that preserves cyclosporin A binding activity. Seal S, Polley S, Sau S. PLoS One 14 e0210771 (2019)
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Related citations provided by authors (1)

  1. Detailed characterization of a cyclophilin from the human malaria parasite Plasmodium falciparum.. Berriman M, Fairlamb AH Biochem J 334 ( Pt 2) 437-45 (1998)

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