Peptidyl‐prolyl cis/trans isomerases (PPIases) are enzymes that catalyse protein folding both in vitro and in vivo. We isolated a peptidyl‐prolyl cis/trans isomerase (PPIase) which is specifically associated with the 50S subunit of the Escherichia coli ribosome. This association was abolished by adding at least 1.5 M LiCl. Sequencing the N‐terminal amino acids in addition to three proteolytic fragments totalling 62 amino acids revealed that this PPIase is identical to the E.coli trigger factor. A comparison of the amino acid sequence of trigger factor with those of other PPIase families shows little similarities, suggesting that trigger factor may represent an additional family of PPIases. Trigger factor was purified to homogeneity on a preparative scale from E.coli and its enzymatic properties were studied. In its activity towards oligopeptide substrates, the trigger factor resembles the FK506‐binding proteins (FKBPs). Additionally, the pattern of subsite specificities with respect to the amino acid preceding proline in Suc‐Ala‐Xaa‐Pro‐Phe‐4‐nitroanilides is reminiscent of FKBPs. However, the PPIase activity of the trigger factor was not inhibited by either FK506 or by cyclosporin A at concentrations up to 100 microM. In vitro, the trigger factor catalysed the proline‐limited refolding of a variant of RNase T1 much better than all other PPIases that have been examined so far.
The reversible protein phosphorylation on serine or threonine residues that precede proline (pSer/Thr-Pro) is a key signaling mechanism for the control of various cellular processes, including cell division. The pSer/Thr-Pro moiety in peptides exists in the two completely distinct cis and trans conformations whose conversion is catalyzed specifically by the essential prolyl isomerase Pin1. Previous results suggest that Pin1 might regulate the conformation and dephosphorylation of its substrates. However, it is not known whether phosphorylation-dependent prolyl isomerization occurs in a native protein and/or affects dephosphorylation of pSer/Thr-Pro motifs. Here we show that the major Pro-directed phosphatase PP2A is conformation-specific and effectively dephosphorylates only the trans pSer/Thr-Pro isomer. Furthermore, Pin1 catalyzes prolyl isomerization of specific pSer/Thr-Pro motifs both in Cdc25C and tau to facilitate their dephosphorylation by PP2A. Moreover, Pin1 and PP2A show reciprocal genetic interactions, and prolyl isomerase activity of Pin1 is essential for cell division in vivo. Thus, phosphorylation-specific prolyl isomerization catalyzed by Pin1 is a novel mechanism essential for regulating dephosphorylation of certain pSer/Thr-Pro motifs.
The peptidyl prolyl cis/trans isomerase Pin1 has been implicated in the development of cancer, Alzheimer's disease and asthma, but highly specific and potent Pin1 inhibitors remain to be identified. Here, by screening a combinatorial peptide library, we identified a series of nanomolar peptidic inhibitors. Nonproteinogenic amino acids, incorporated into 5-mer to 8-mer oligopeptides containing a d-phosphothreonine as a central template, yielded selective inhibitors that blocked cell cycle progression in HeLa cells in a dose-dependent manner.
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