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Literature DB >> 1338979

Active site mutants of human cyclophilin A separate peptidyl-prolyl isomerase activity from cyclosporin A binding and calcineurin inhibition.

L D Zydowsky¹, F A Etzkorn, H Y Chang, S B Ferguson, L A Stolz, S I Ho, C T Walsh.

Abstract

Based on recent X-ray structural information, six site-directed mutants of human cyclophilin A (hCyPA) involving residues in the putative active site--H54, R55, F60, Q111, F113, and H126--have been constructed, overexpressed, and purified from Escherichia coli to homogeneity. The proteins W121A (Liu, J., Chen, C.-M., & Walsh, C.T., 1991a, Biochemistry 30, 2306-2310), H54Q, R55A, F60A, Q111A, F113A, and H126Q were assayed for cis-trans peptidyl-prolyl isomerase (PPIase) activity, their ability to bind the immunosuppressive drug cyclosporin A (CsA), and protein phosphatase 2B (calcineurin) inhibition in the presence of CsA. Results indicate that H54Q, Q111A, F113A, and W121A retain 3-15% of the catalytic efficiency (kcat/Km) of wild-type recombinant hCyPA. The remaining three mutants (R55A, F60A, and H126Q) each retain less than 1% of the wild-type catalytic efficiency, indicating participation by these residues in PPIase catalysis. Each of the mutants bound to a CsA affinity matrix. The mutants R55A, F60A, F113A, and H126Q inhibited calcineurin in the presence of CsA, whereas W121A did not. Although CsA is a competitive inhibitor of PPIase activity, it can complex with enzymatically inactive cyclophilins and inhibit the phosphatase activity of calcineurin.

Entities: Chemical Gene Mutation Species

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Year: 1992 PMID： 1338979 PMCID： PMC2142182 DOI： 10.1002/pro.5560010903

Source DB: PubMed Journal: Protein Sci ISSN： 0961-8368 Impact factor: 6.725

27 in total

1. Determination of kinetic constants for peptidyl prolyl cis-trans isomerases by an improved spectrophotometric assay.

Authors: J L Kofron; P Kuzmic; V Kishore; E Colón-Bonilla; D H Rich
Journal: Biochemistry Date: 1991-06-25 Impact factor: 3.162

2. Atomic structure of FKBP-FK506, an immunophilin-immunosuppressant complex.

Authors: G D Van Duyne; R F Standaert; P A Karplus; S L Schreiber; J Clardy
Journal: Science Date: 1991-05-10 Impact factor: 47.728

3. Crystal structure of recombinant human T-cell cyclophilin A at 2.5 A resolution.

Authors: H M Ke; L D Zydowsky; J Liu; C T Walsh
Journal: Proc Natl Acad Sci U S A Date: 1991-11-01 Impact factor: 11.205

4. Dephosphorylation of cAMP-dependent protein kinase regulatory subunit (type II) by calmodulin-dependent protein phosphatase. Determinants of substrate specificity.

Authors: D K Blumenthal; K Takio; R S Hansen; E G Krebs
Journal: J Biol Chem Date: 1986-06-25 Impact factor: 5.157

5. NMR studies of [U-13C]cyclosporin A bound to cyclophilin: bound conformation and portions of cyclosporin involved in binding.

Authors: S W Fesik; R T Gampe; H L Eaton; G Gemmecker; E T Olejniczak; P Neri; T F Holzman; D A Egan; R Edalji; R Simmer
Journal: Biochemistry Date: 1991-07-02 Impact factor: 3.162

6. Two distinct forms of peptidylprolyl-cis-trans-isomerase are expressed separately in periplasmic and cytoplasmic compartments of Escherichia coli cells.

Authors: T Hayano; N Takahashi; S Kato; N Maki; M Suzuki
Journal: Biochemistry Date: 1991-03-26 Impact factor: 3.162

7. Cloning, expression, and purification of human cyclophilin in Escherichia coli and assessment of the catalytic role of cysteines by site-directed mutagenesis.

Authors: J Liu; M W Albers; C M Chen; S L Schreiber; C T Walsh
Journal: Proc Natl Acad Sci U S A Date: 1990-03 Impact factor: 11.205

8. Nuclear association of a T-cell transcription factor blocked by FK-506 and cyclosporin A.

Authors: W M Flanagan; B Corthésy; R J Bram; G R Crabtree
Journal: Nature Date: 1991-08-29 Impact factor: 49.962

9. Structure of human cyclophilin and its binding site for cyclosporin A determined by X-ray crystallography and NMR spectroscopy.

Authors: J Kallen; C Spitzfaden; M G Zurini; G Wider; H Widmer; K Wüthrich; M D Walkinshaw
Journal: Nature Date: 1991-09-19 Impact factor: 49.962

10. Cyclosporin-mediated inhibition of bovine calcineurin by cyclophilins A and B.

Authors: S K Swanson; T Born; L D Zydowsky; H Cho; H Y Chang; C T Walsh; F Rusnak
Journal: Proc Natl Acad Sci U S A Date: 1992-05-01 Impact factor: 11.205

107 in total

1. Enzymology. A moving story.

Authors: Joseph J Falke
Journal: Science Date: 2002-02-22 Impact factor: 47.728

2. Structural consequences of cyclophilin A binding on maturational refolding in human immunodeficiency virus type 1 capsid protein.

Authors: L Dietrich; L S Ehrlich; T J LaGrassa; D Ebbets-Reed; C Carter
Journal: J Virol Date: 2001-05 Impact factor: 5.103

3. The Arabidopsis cyclophilin gene family.

Authors: Patrick G N Romano; Peter Horton; Julie E Gray
Journal: Plant Physiol Date: 2004-03-29 Impact factor: 8.340

4. The rice thylakoid lumenal cyclophilin OsCYP20-2 confers enhanced environmental stress tolerance in tobacco and Arabidopsis.

Authors: Se-Kyong Kim; Young Nim You; Jong Chun Park; Younghee Joung; Beom-Gi Kim; Jun Cheul Ahn; Hye Sun Cho
Journal: Plant Cell Rep Date: 2011-10-30 Impact factor: 4.570

5. A reduced-amide inhibitor of Pin1 binds in a conformation resembling a twisted-amide transition state.

Authors: Guoyan G Xu; Yan Zhang; Ana Y Mercedes-Camacho; Felicia A Etzkorn
Journal: Biochemistry Date: 2011-10-18 Impact factor: 3.162

6. Ectopic expression of ThCYP1, a stress-responsive cyclophilin gene from Thellungiella halophila, confers salt tolerance in fission yeast and tobacco cells.

Authors: An-Ping Chen; Gui-Ling Wang; Zhan-Liang Qu; Chun-Xia Lu; Ning Liu; Fang Wang; Gui-Xian Xia
Journal: Plant Cell Rep Date: 2006-09-14 Impact factor: 4.570