Fragmenting the S100B-p53 interaction: Combined virtual/biophysical screening approaches to identify ligands

Mariangela Agamennone; Lucia Cesari; Daniela Lalli; Elisa Turlizzi; Rebecca Del Conte; Paola Turano; Stefano Mangani; Alessandro Padova

doi:10.1002/cmdc.200900393

Fragmenting the S100B-p53 interaction: Combined virtual/biophysical screening approaches to identify ligands

Mariangela Agamennone
, Lucia Cesari
, Daniela Lalli
, Elisa Turlizzi
, Rebecca Del Conte
, Paola Turano
, Stefano Mangani
, Alessandro Padova

Research output: Contribution to journal › Article › peer-review

Abstract

S100B contributes to cell proliferation by binding the C terminus of p53 and inhibiting its tumor suppressor function. The use of multiple computational approaches to screen fragment libraries targeting the human S100B-p53 interaction site is reported. This in silico screening led to the identification of 280 novel prospective ligands. NMR spectroscopic experiments revealed specific binding at the p53 interaction site for a set of these compounds and confirmed their potential for further rational optimization. The X-ray crystal structure determined for one of the binders revealed key intermolecular interactions, thus paving the way for structure-based ligand optimization.

Original language	English
Pages (from-to)	428-435
Number of pages	8
Journal	ChemMedChem
Volume	5
Issue number	3
DOIs	https://doi.org/10.1002/cmdc.200900393
Publication status	Published - 1 Mar 2010
Externally published	Yes

Keywords

Fragment-based drug design
NMR spectroscopy
Protein-protein interactions
X-ray diffraction

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10.1002/cmdc.200900393

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abstract = "S100B contributes to cell proliferation by binding the C terminus of p53 and inhibiting its tumor suppressor function. The use of multiple computational approaches to screen fragment libraries targeting the human S100B-p53 interaction site is reported. This in silico screening led to the identification of 280 novel prospective ligands. NMR spectroscopic experiments revealed specific binding at the p53 interaction site for a set of these compounds and confirmed their potential for further rational optimization. The X-ray crystal structure determined for one of the binders revealed key intermolecular interactions, thus paving the way for structure-based ligand optimization.",

keywords = "Fragment-based drug design, NMR spectroscopy, Protein-protein interactions, X-ray diffraction",

author = "Mariangela Agamennone and Lucia Cesari and Daniela Lalli and Elisa Turlizzi and \{Del Conte\}, Rebecca and Paola Turano and Stefano Mangani and Alessandro Padova",

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AU - Agamennone, Mariangela

AU - Cesari, Lucia

AU - Lalli, Daniela

AU - Turlizzi, Elisa

AU - Del Conte, Rebecca

AU - Turano, Paola

AU - Mangani, Stefano

AU - Padova, Alessandro

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AB - S100B contributes to cell proliferation by binding the C terminus of p53 and inhibiting its tumor suppressor function. The use of multiple computational approaches to screen fragment libraries targeting the human S100B-p53 interaction site is reported. This in silico screening led to the identification of 280 novel prospective ligands. NMR spectroscopic experiments revealed specific binding at the p53 interaction site for a set of these compounds and confirmed their potential for further rational optimization. The X-ray crystal structure determined for one of the binders revealed key intermolecular interactions, thus paving the way for structure-based ligand optimization.

KW - Fragment-based drug design

KW - NMR spectroscopy

KW - Protein-protein interactions

KW - X-ray diffraction

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JO - ChemMedChem

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ER -

Fragmenting the S100B-p53 interaction: Combined virtual/biophysical screening approaches to identify ligands

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Keywords

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