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A tethering mechanism underlies Pin1-catalyzed proline <i>cis-trans</i> isomerization at a noncanonical site.


ABSTRACT: The prolyl isomerase Pin1 catalyzes the cis-trans isomerization of proline peptide bonds, a noncovalent post-translational modification that influences cellular and molecular processes, including protein-protein interactions. Pin1 is a two-domain enzyme containing a WW domain that recognizes phosphorylated serine/threonine-proline (pS/pT-P) canonical motifs and an enzymatic PPIase domain that catalyzes proline cis-trans isomerization of pS/pT-P motifs. Here, we show that Pin1 uses a tethering mechanism to bind and catalyze proline cis-trans isomerization of a noncanonical motif in the disordered N-terminal activation function-1 (AF-1) domain of the human nuclear receptor PPARγ. NMR reveals multiple Pin1 binding regions within the PPARγ AF-1, including a canonical motif (pS112-P113) that when phosphorylated by the kinase ERK2 binds the Pin1 WW domain with high affinity. NMR methods reveal that Pin1 also binds and accelerates cis-trans isomerization of a noncanonical motif containing a tryptophan-proline motif (W39-P40) previously shown to be involved in an interdomain interaction with the C-terminal ligand-binding domain (LBD) of PPARγ. Cellular transcription studies combined with mutagenesis and Pin1 inhibitor treatment reveal a functional role for Pin1-mediated acceleration of cis-trans isomerization of the PPARγ W39-P40 motif. Our data inform a refined model of the Pin1 catalytic mechanism where the WW domain can bind a canonical pS/T-P motif and tether Pin1 to a target, which enables the PPIase domain to exert catalytic cis-trans isomerization at a distal noncanonical site.

SUBMITTER: Williams CC 

PROVIDER: S-EPMC11291072 | biostudies-literature | 2025 Mar

REPOSITORIES: biostudies-literature

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A tethering mechanism underlies Pin1-catalyzed proline &lt;i&gt;cis-trans&lt;/i&gt; isomerization at a noncanonical site.

Williams Christopher C CC   Chuck Jonathan J   Munoz-Tello Paola P   Kojetin Douglas J DJ  

bioRxiv : the preprint server for biology 20250322


The prolyl isomerase Pin1 catalyzes the <i>cis-trans</i> isomerization of proline peptide bonds, a noncovalent post-translational modification that influences cellular and molecular processes, including protein-protein interactions. Pin1 is a two-domain enzyme containing a WW domain that recognizes phosphorylated serine/threonine-proline (pS/pT-P) canonical motifs and an enzymatic PPIase domain that catalyzes proline <i>cis-trans</i> isomerization of pS/pT-P motifs. Here, we show that Pin1 uses  ...[more]

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