Discovery of Small Molecules that Inhibit the Disordered Protein, p27Kip1

Iconaru, Luigi I.; Ban, David; Bharatham, Kavitha; Ramanathan, Arvind; Zhang, Weixing; Shelat, Anang A.; Zuo, Jian; Kriwacki, Richard W.

doi:10.1038/srep15686

Cited by 77 publications

(114 citation statements)

References 55 publications

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“…We previously demonstrated using NMR that the small molecule, SJ403 (full name, SJ572403), binds specifically to aromatic residues within p27-D2. 32 Based upon our findings from NMR RD experiments on aromatic residue dynamics discussed above, we hypothesized that the binding of SJ403 would alter the dynamic conformational landscape of p27-D2. We repeated 1 H N RD experiments at 274 K in the presence of the small molecule and observed that R ex decreased with increasing concentration of SJ403 (Figure 3).…”

Section: Resultsmentioning

confidence: 99%

“…24 Therefore, IDPs are now considered as therapeutic targets 25 ; however, drug discovery against IDPs is challenging due to their highly dynamic nature. Remarkably, small molecules that modulate the activity of a variety of IDPs/IDRs have been identified 26–32 and, in a few cases, NMR was used to map small molecule:IDP/IDR interactions. 27,32 However, the mechanism(s) of these interactions and their influence on IDP/IDR conformational landscapes are unknown.…”

Section: Introductionmentioning

confidence: 99%

“…44 Motivated by these various disease associations and potential therapeutic strategies involving p27, we recently discovered a small molecule inhibitor through an NMR-based fragment screen that bound specifically to the D2 sub-domain of p27 (p27-D2) and caused partial reactivation of Cdk2 kinase activity when titrated into the inhibited p27-D2/Cdk2/cyclin A complex. 32 The availability of this inhibitor (termed SJ403 here) provided the opportunity to experimentally characterize the mechanism of small molecule:IDP interactions. Here, we used NMR high-power relaxation dispersion (RD), small angle X-ray scattering (SAXS) and mutagenesis to describe the conformational landscape of p27-D2 and how this is altered by binding to SJ403.…”

Section: Introductionmentioning

confidence: 99%

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A Small Molecule Causes a Population Shift in the Conformational Landscape of an Intrinsically Disordered Protein

Ban¹,

Iconaru²,

Ramanathan

et al. 2017

J. Am. Chem. Soc.

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Intrinsically disordered proteins (IDPs) have roles in myriad biological processes and numerous human diseases. However, kinetic and amplitude information regarding their ground-state conformational fluctuations have remained elusive. We demonstrate using nuclear magnetic resonance (NMR)-based relaxation dispersion that the D2 domain of p27Kip1, a prototypical IDP, samples multiple discrete, rapidly exchanging conformational states. By combining NMR with mutagenesis and small angle X-ray scattering (SAXS), we show that these states involve aromatic residue clustering through long-range hydrophobic interactions. Theoretical studies have proposed that small molecules bind promiscuously to IDPs, causing expansion of their conformational landscapes. However, based on previous NMR-based screening results, we show here that compound binding only shifts the populations of states that existed within the ground-state of apo p27-D2 without changing the barriers between states. Our results provide atomic resolution insight into how a small molecule binds an IDP and emphasize the need to examine motions on the low microsecond timescale when probing these types of interactions.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A Small Molecule Causes a Population Shift in the Conformational Landscape of an Intrinsically Disordered Protein

Ban¹,

Iconaru²,

Ramanathan

et al. 2017

J. Am. Chem. Soc.

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“…50 Information provided to such scripts included the total enzyme [𝑃0 ] and total peptide concentrations [𝐿0 ] employed in the different steps of the HSQC titrations. In addition, the NMR chemical shift difference (Δobs) between each set of free and bound conditions was provided.…”

Section: Methodsmentioning

confidence: 99%

“…An error analysis of the K D values was carried out using a Monte-Carlo approach in which a 10% error was imposed on the serially diluted thrombin concentration. 50 …”

Section: Methodsmentioning

confidence: 99%

Deciphering Conformational Changes Associated with the Maturation of Thrombin Anion Binding Exosite I

et al. 2017

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Thrombin participates in procoagulation, anticoagulation, and platelet activation. This enzyme contains anion binding exosites, ABE I and ABE II, which attract regulatory biomolecules. As prothrombin is activated to thrombin, pro-ABE I is converted into mature ABE I. Unexpectedly, certain ligands can bind to pro-ABE I specifically. Moreover, knowledge is lacking on changes in conformation and affinity that occur at the individual residue level as pro-ABE I is converted to ABE I. Such changes are transient and failed to be captured by crystallography. Therefore, we employed NMR titrations to monitor development of ABE I using peptides based on Protease Activated Receptor 3 (PAR3). Proton line broadening NMR revealed that PAR3 (44–56) and weaker binding PAR3G (44–56) could already interact with pro-ABE I on prothrombin. 1H-15N Heteronuclear Single Quantum Coherence NMR titrations were then used to probe binding of individual 15N-labeled PAR3G residues (F47, E48, L52, and D54). PAR3G E48 and D54 could interact electrostatically with prothrombin and tightened upon thrombin maturation. The higher affinity for PAR3G D54 suggests the region surrounding thrombin R77a is better oriented to bind D54 than the interaction between PAR3G E48 and thrombin R75. Aromatic PAR3G F47 and aliphatic L52 both reported on significant changes in chemical environment upon conversion of prothrombin to thrombin. The ABE I region surrounding the 30s loop was more affected than the hydrophobic pocket (F34, L65, and I82). Our NMR titrations demonstrate that PAR3 residues document structural rearrangements occurring during exosite maturation that are missed by reported X-ray crystal structures.

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Selective ¹H^α NMR Methods Reveal Functionally Relevant Proline cis/trans Isomers in Intrinsically Disordered Proteins: Characterization of Minor Forms, Effects of Phosphorylation, and Occurrence in Proteome

et al. 2021

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It is important to identify proline cis/trans isomers that appear in several regulatory mechanisms of proteins,a nd to characterize minor species that are present due to the conformational heterogeneity in intrinsically disordered proteins (IDPs). To obtain residue level information on these mobile systems we introduce two 1 H a -detected, proline selective,real-time homodecoupled NMR experiments and analyze the proline abundant transactivation domain of p53. The measurements are sensitive enough to identify minor conformers present in 4-15 %a mounts;m oreover,w es how the consequences of CK2 phosphorylation on the cis/trans-proline equilibrium. Using our results and available literature data we perform astatistical analysis on how the amino acid type effects the cis/trans-proline distribution. The methods are applicable under physiological conditions,they can contribute to find key proline isomers in proteins,and statistical analysis results may help in amino acid sequence optimization for biotechnological purposes.

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Discovery of Small Molecules that Inhibit the Disordered Protein, p27Kip1

Cited by 77 publications

References 55 publications

A Small Molecule Causes a Population Shift in the Conformational Landscape of an Intrinsically Disordered Protein

A Small Molecule Causes a Population Shift in the Conformational Landscape of an Intrinsically Disordered Protein

Deciphering Conformational Changes Associated with the Maturation of Thrombin Anion Binding Exosite I

Selective ¹H^α NMR Methods Reveal Functionally Relevant Proline cis/trans Isomers in Intrinsically Disordered Proteins: Characterization of Minor Forms, Effects of Phosphorylation, and Occurrence in Proteome

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Discovery of Small Molecules that Inhibit the Disordered Protein, p27Kip1

Cited by 77 publications

References 55 publications

A Small Molecule Causes a Population Shift in the Conformational Landscape of an Intrinsically Disordered Protein

A Small Molecule Causes a Population Shift in the Conformational Landscape of an Intrinsically Disordered Protein

Deciphering Conformational Changes Associated with the Maturation of Thrombin Anion Binding Exosite I

Selective 1Hα NMR Methods Reveal Functionally Relevant Proline cis/trans Isomers in Intrinsically Disordered Proteins: Characterization of Minor Forms, Effects of Phosphorylation, and Occurrence in Proteome

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Selective ¹H^α NMR Methods Reveal Functionally Relevant Proline cis/trans Isomers in Intrinsically Disordered Proteins: Characterization of Minor Forms, Effects of Phosphorylation, and Occurrence in Proteome