UNIPROT:P06889 - FACTA Search

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A functionally active 17.5 kDa peptidyl-prolyl cis-trans isomerase was purified to homogeneity from Streptomyces chrysomallus, a Gram-positive filamentous bacterium. Characterization of the enzyme revealed inhibition and binding characteristics, against the immunsuppressive drug cyclosporin A, which were similar to cyclophilins from eukaryotes such as mammals, plants, fungi and yeasts, but different from those of cyclophilins from enterobacteria such as Escherichia coli. The amino acid sequence of the S. chrysomallus cyclophilin, as deduced from the gene sequence, revealed a striking degree of amino acid sequence identity with the corresponding 17 kDa proteins of humans (66%), Neurospora (70%) and yeast (69%). Comparison with cyclophilin sequences from the Gram-negative enterobacteria revealed much less homology (25% identity with E. coli b, 23% identity with E. coli a). Cyclophilin was detected in each of the four other Streptomyces species tested. The cyclophilins from the various streptomycetes differed in size, varying between 17 and 20.5 kDa. The cyclophilins were abundant in the Streptomyces cells, and present throughout growth.
Mol Microbiol 1992 Dec
PMID:Streptomycetes possess peptidyl-prolyl cis-trans isomerases that strongly resemble cyclophilins from eukaryotic organisms. 147 97

Cyclophilins (Cyps) constitute a highly conserved family of proteins present in a wide variety of organisms. Historically, Cyps were first identified by their ability to bind the immunosuppressive agent cyclosporin A (CsA) with high affinity; they later were found to have peptidyl-prolyl cis-trans isomerase (PPIase) activity, which catalyzes the folding of oligopeptides at proline-peptide bonds in vitro and may be important for protein folding in vivo. Cells of Saccharomyces cerevisiae contain at least two distinct Cyp-related PPIases encoded by the genes CYP1 and CYP2. A yeast strain (GL81) containing genomic disruptions of three known yeast PPIase-encoding genes [CYP1, CYP2 and RBP1 (for rapamycin-binding protein); Koltin et al., Mol. Cell. Biol. 11 (1991) 1718-1723] was previously constructed and found to be viable. Soluble fractions of these cells possess residual CsA-sensitive PPIase activity (2-5% of that present in wild-type cells as assayed in vitro). We have purified an approx. 18-kDa protein exhibiting PPIase activity from a soluble fraction of GL81 cells and determined that its N-terminal amino acid (aa) sequence exhibits significant homology (but nonidentity) to the Cyp1 and Cyp2 proteins. We designate the gene for this new protein, CYP3. Using a degenerate oligodeoxyribonucleotide (oligo) based on the N-terminal aa sequence, plus an internal oligo homologous to a conserved region within the portion of CYP1 and CYP2 that had been deleted in the genome, a CYP3-specific DNA fragment was generated by the polymerase chain reaction (PCR) using GL81 genomic DNA as a substrate. This PCR fragment was used as a probe to isolate CYP3 genomic and cDNA clones.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The yeast cyclophilin multigene family: purification, cloning and characterization of a new isoform. 154 57

Cyclophilin is a ubiquitously expressed cytosolic peptidyl-prolyl cis-trans isomerase that is inhibited by the immunosuppressive drug cyclosporin A. A degenerate oligonucleotide based on a conserved cyclophilin sequence was used to isolate cDNA clones representing a ubiquitously expressed mRNA from mice and humans. This mRNA encodes a novel 20-kDa protein, CPH2, that shares 64% sequence identity with cyclophilin. Bacterially expressed CPH2 binds cyclosporin A and is a cyclosporin A-inhibitable peptidyl-prolyl cis-trans isomerase. Cell fractionation of rat liver followed by Western blot (immunoblot) analysis indicated that CPH2 is not cytosolic but rather is located exclusively in the endoplasmic reticulum. These results suggest that cyclosporin A mediates its effect on cells through more than one cyclophilin and that cyclosporin A-induced misfolding of T-cell membrane proteins normally mediated by CPH2 plays a role in immunosuppression.
Mol Cell Biol 1991 Jul
PMID:An endoplasmic reticulum-specific cyclophilin. 171 Jul 67

Cells of Saccharomyces cerevisiae contain a major cytosolic cyclophilin (Cyp)-related peptidyl-prolyl cis-trans isomerase (PPIase) which is the target for cyclosporin A (CsA) cytotoxicity and which is encoded by the CYP1 gene [Haendler et al., Gene 83 (1989) 39-46]. We recently identified a second Cyp-related gene in yeast, CYP2 [Koser et al., Nucleic Acids Res. 18 (1990) 1643] which predicts a protein with a hydrophobic leader sequence. A sequence lacking 33 codons from the 5'-end of the CYP2 open reading frame was generated by the polymerase chain reaction and engineered for expression in Escherichia coli. The corresponding recombinant truncated protein was purified and found to exhibit PPIase activity which was inhibited by CsA. The CYP2 gene is genetically unlinked to CYP1. As with CYP1, genomic disruption of CYP2 had no effect on haploid cell viability. Disruption of all three of the known yeast PPIase-encoding genes [CYP1, CYP2, and RBP1 for rapamycin-binding protein; Koltin et al., Mol. Cell. Biol. 11 (1991) 1718-1723] in the same haploid cell also resulted in no apparent cellular phenotype, suggesting either that none of these enzymes have an essential function or that additional PPIases can compensate for their specific absence. Whereas cells containing a genomic disruption of CYP1 exhibited a CsA-resistant phenotype, genomic disruption of CYP2 had no effect on CsA sensitivity. This suggests that the CYP1 gene product is the primary cellular target for CsA toxicity in yeast. Since both purified Cyps display CsA sensitivity in vitro, our data suggest that Cyp1 and Cyp2 differ in terms of their cellular function and/or localization.
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PMID:The CYP2 gene of Saccharomyces cerevisiae encodes a cyclosporin A-sensitive peptidyl-prolyl cis-trans isomerase with an N-terminal signal sequence. 176 Dec 34

Rapamycin is a macrolide antifungal agent with structural similarity to FK506. It exhibits potent immunosuppressive properties analogous to those of both FK506 and cyclosporin A (CsA). Unlike FK506 and CsA, however, rapamycin does not inhibit the transcription of early T-cell activation genes, including interleukin-2, but instead appears to block downstream events leading to T-cell activation. FK506 and CsA receptor proteins (FKBP and cyclophilin, respectively) have been identified and shown to be distinct members of a class of enzymes that possess peptidyl-prolyl cis-trans isomerase (PPIase) activity. Despite the apparent differences in their mode of action, rapamycin and FK506 act as reciprocal antagonists in vivo and compete for binding to FKBP. As a means of rapidly identifying a target protein for rapamycin in vivo, we selected and genetically characterized rapamycin-resistant mutants of Saccharomyces cerevisiae and isolated a yeast genomic fragment that confers drug sensitivity. We demonstrate that the resonse to rapamycin in yeast cells is mediated by a gene encoding a 114-amino-acid, approximately 13-kDa protein which has a high degree of sequence homology with human FKBP; we designated this gene RBP1 (for rapamycin-binding protein). The RBP1 protein (RBP) was expressed in Escherichia coli, purified to homogeneity, and shown to catalyze peptidyl-prolyl isomerization of a synthetic peptide substrate. PPIase activity was completely inhibited by rapamycin and FK506 but not by CsA, indicating that both macrolides bind to the recombinant protein. Expression of human FKBP in rapamycin-resistant mutants restored rapamycin sensitivity, indicating a functional equivalence between the yeast and human enzymes.
Mol Cell Biol 1991 Mar
PMID:Rapamycin sensitivity in Saccharomyces cerevisiae is mediated by a peptidyl-prolyl cis-trans isomerase related to human FK506-binding protein. 199 17

The rot gene in Escherichia coli encodes PPIase A, a periplasmic peptidyl-prolyl cis-trans isomerase with homology to the cyclophilin family of proteins. Here it is demonstrated that rot is expressed in a complex manner from four overlapping promoters and that the rot regulatory region is unusually compact, containing a close array of sites for DNA-binding proteins. The three most upstream rot promoters are activated by the global gene regulatory cAMP-CRP complex and negatively regulated by the CytR repressor protein. Activation of these three promoters occurs by binding of cAMP-CRP to two sites separated by 53 bp. Moreover, one of the cAMP-CRP complexes is involved in the activation of both a Class I and a Class II promoter. Repression takes place by the formation of a CytR/cAMP-CRP/DNA nucleoprotein complex consisting of the two cAMP-CRP molecules and CytR bound in between. The two regulators bind co-operatively to the DNA overlapping the three upstream promoters, simultaneously quenching the cAMP-CRP activator function. These results expand the CytR regulon to include a gene whose product has no known function in ribo- and deoxyribonucleoside catabolism or transport.
Mol Microbiol 1994 Dec
PMID:The gene encoding the periplasmic cyclophilin homologue, PPIase A, in Escherichia coli, is expressed from four promoters, three of which are activated by the cAMP-CRP complex and negatively regulated by the CytR repressor. 771 59

We studied the role of mitochondrial cyclophilin 20 (CyP20), a peptidyl-prolyl cis-trans isomerase, in preprotein translocation across the mitochondrial membranes and protein folding inside the organelle. The inhibitory drug cyclosporin A did not impair membrane translocation of preproteins, but it delayed the folding of an imported protein in wild-type mitochondria. Similarly, Neurospora crassa mitochondria lacking CyP20 efficiently imported preproteins into the matrix, but folding of an imported protein was significantly delayed, indicating that CyP20 is involved in protein folding in the matrix. The slow folding in the mutant mitochondria was not inhibited by cyclosporin A. Folding intermediates of precursor molecules reversibly accumulated at the molecular chaperones Hsp70 and Hsp60 in the matrix. We conclude that CyP20 is a component of the mitochondrial protein folding machinery and that it cooperates with Hsp70 and Hsp60. It is speculated that peptidyl-prolyl cis-trans isomerases in other cellular compartments may similarly promote protein folding in cooperation with chaperone proteins.
Mol Cell Biol 1995 May
PMID:Cyclophilin 20 is involved in mitochondrial protein folding in cooperation with molecular chaperones Hsp70 and Hsp60. 773 45

Cyclophilins (Cyp) are ubiquitous proteins with peptidyl-prolyl cis-trans isomerase activity that catalyses rotation of X-Pro peptide bonds and facilitates the folding of proteins; these enzymes are believed to play a role in in vivo protein folding. During development of normal bean plants, Cyp transcripts are first detected three days after beginning of germination and are present in all plant tissues examined. In a general way, higher amounts of Cyp mRNAs are found in developing tissues. Cyp mRNA accumulates in alfalfa mosaic virus-infected bean leaves and after ethephon and salicylic acid treatments. In response to a localized chemical treatment Cyp mRNA accumulation is observed in the untreated parts of the plants; however these changes in mRNA levels are restricted to the aerial part of the plant. A comparative study of Cyp mRNA accumulation in bean and maize in response to various external stimuli shows striking differences in profiles between the two plants. For instance, in response to heat shock, maize Cyp mRNA significantly accumulates, whereas no remaining mRNA is observed a few hours after the beginning of the heat stress in bean. Differences in mRNA accumulation profiles are also observed upon salt stress which induces the response earlier in maize than in bean, whereas the opposite situation is observed when plants are cold-stressed. All these findings further suggest that cyclophilin might be a stress-related protein.
Plant Mol Biol 1994 Nov
PMID:Bean cyclophilin gene expression during plant development and stress conditions. 781 75

Three different lambda phage clones with overlapping inserts of Bacillus subtilis DNA, which cover the region from spoIIAA to serA, have been isolated. The nucleotide sequence of their inserts, starting after spoVAF and ending at serA, has been determined. A contiguous sequence of 35,354 bp was established, including previously analysed overlapping adjacent regions. Within the newly determined sequence 31 open reading frames (ORFs) with putative ribosome-binding sites have been found. Nine of them correspond to previously sequenced and characterized genes: spo-VAF, lysA, sipS, ribG, ribB, ribA, ribH, ribTD and dacB. Comparison of the amino acid sequences of the products encoded by the other ORFs to known proteins allowed putative functions to be assigned to seven of these ORFs. Among these are the following: (i) the ppiB gene, encoding a cytoplasmic peptidylprolyl isomerase; (ii) two pairs of signal-transducers, one homologous to phoR-phoP of B. subtilis, encoding regulators of phosphatase biosynthesis, and the second to the fecI-fecR of Escherichia coli, which is responsible for the regulation of the citrate-dependent iron (III) transport system; (iii) aroC and serA genes, involved in the biosynthesis of aromatic amino acids and serine, respectively, the function of which has been confirmed by constructing corresponding mutants with disrupted ORFs. The organization of putative operons has been postulated on the basis of the sequences of their transcription terminators, promoters and regulatory elements.
Mol Microbiol 1993 Oct
PMID:The organization of the Bacillus subtilis 168 chromosome region between the spoVA and serA genetic loci, based on sequence data. 793 29

Sequencing of N-terminal and internal peptide fragments of the purified 17 kDa Bacillus subtilis peptidyl-prolyl cis-trans isomerase (PPIase) revealed sequence identity to conserved regions of a number of eukaryotic and prokaryotic cyclophilins. Using two oligonucleotide primers corresponding to the N-terminus and a highly conserved internal amino acid sequence, polymerase chain reactions (PCR) with B. subtilis genomic DNA were carried out. The resultant PCR fragment of 335 bp was cloned, sequenced and subsequently used as a probe for screening a lambda Zap II gene library of B. subtilis. Two overlapping positive clones of 5 and 7 kb containing the B. subtilis PPIase gene (ppiB), which is 432 bp in length and encodes a protein of 144 amino acid residues, were identified and two distinct transcriptional initiation sites at the 5' end of ppiB were mapped. The entire region (35 kb) between spoVA and serA was recently sequenced in B. subtilis, and an open reading frame (ORF) that encodes a putative peptidyl-prolyl cis-trans isomerase at about 210 degrees on the B. subtilis genetic map was located. This putative PPIase is identical to PPiB. We have overexpressed the ppiB gene in Escherichia coli, purified the encoded protein to apparent homology and shown that it exhibits PPIase activity. In addition, the recombinant PPiB shows a significant inhibition of PPIase activity by cyclosporin A (CsA) at a level comparable to that observed for the B. subtilis enzyme. Interestingly the B. subtilis PPIase shows about 40% identity to eukaryotic PPIases and less similarity to those of Gram-negative bacteria (27-32% identity). Like other interruption mutants of yeast and Neurospora, which lack a functional cyclophilin gene, a B. subtilis mutant containing ppiB::cat, a cat-interrupted copy of ppiB in the chromosome, is viable.
Mol Microbiol 1994 Mar
PMID:Cloning and characterization of ppiB, a Bacillus subtilis gene which encodes a cyclosporin A-sensitive peptidyl-prolyl cis-trans isomerase. 802 78

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