Suzanne B. Shuker scite author profile

A nuclear magnetic resonance (NMR)-based method is described in which small organic molecules that bind to proximal subsites of a protein are identified, optimized, and linked together to produce high-affinity ligands. The approach is called "SAR by NMR" because structure-activity relationships (SAR) are obtained from NMR. With this technique, compounds with nanomolar affinities for the FK506 binding protein were rapidly discovered by tethering two ligands with micromolar affinities. The method reduces the amount of chemical synthesis and time required for the discovery of high-affinity ligands and appears particularly useful in target-directed drug research.

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Structure of Bcl-x _L -Bak Peptide Complex: Recognition Between Regulators of Apoptosis

Sattler

Liang

Nettesheim

et al. 1997

Science

1,401

1,444

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Heterodimerization between members of the Bcl-2 family of proteins is a key event in the regulation of programmed cell death. The molecular basis for heterodimer formation was investigated by determination of the solution structure of a complex between the survival protein Bcl-xL and the death-promoting region of the Bcl-2-related protein Bak. The structure and binding affinities of mutant Bak peptides indicate that the Bak peptide adopts an amphipathic alpha helix that interacts with Bcl-xL through hydrophobic and electrostatic interactions. Mutations in full-length Bak that disrupt either type of interaction inhibit the ability of Bak to heterodimerize with Bcl-xL.

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Discovery of Potent Nonpeptide Inhibitors of Stromelysin Using SAR by NMR

et al. 1997

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With the use of an NMR-based method, potent (IC50 < 25 nM) nonpeptide inhibitors of the matrix metalloproteinase stromelysin (MMP-3) were discovered. The method, called SAR by NMR (for structure−activity relationships by nuclear magnetic resonance), involves the identification, optimization, and linking of compounds that bind to proximal sites on a protein. Using this technique, two ligands that bind weakly to stromelysin (acetohydroxamic acid, K D = 17 mM; 3-(cyanomethyl)-4‘-hydroxybiphenyl, K D = 0.02 mM) were identified. On the basis of NMR-derived structural information, the two fragments were connected to produce a 15 nM inhibitor of this enzyme. This compound was rapidly discovered (less than 6 months) and required only a minimal amount of chemical synthesis. These studies indicate that the SAR by NMR method can be effectively applied to enzymes to yield potent lead inhibitorsan important part of the drug discovery process.

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Suzanne B. Shuker

Discovering High-Affinity Ligands for Proteins: SAR by NMR

Structure of Bcl-x _L -Bak Peptide Complex: Recognition Between Regulators of Apoptosis

Discovery of Potent Nonpeptide Inhibitors of Stromelysin Using SAR by NMR

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About

Suzanne B. Shuker

Discovering High-Affinity Ligands for Proteins: SAR by NMR

Structure of Bcl-x L -Bak Peptide Complex: Recognition Between Regulators of Apoptosis

Discovery of Potent Nonpeptide Inhibitors of Stromelysin Using SAR by NMR

Contact Info

Product

Resources

About

Structure of Bcl-x _L -Bak Peptide Complex: Recognition Between Regulators of Apoptosis