Daryl R. Sauer scite author profile

The results of a statistical analysis of more than 84,000 compounds from lead optimization programs against 30 different protein targets is presented, with a focus on the effects that different chemical substituents have on compound potency. It is observed that the potency changes induced by most chemical groups follows a nearly normal distribution centered near zero (i.e., no effect on potency). However, the widths of the distributions vary significantly between different substituents, and these effects cannot be rationalized by simple physicochemical parameters. In addition, certain substituents consistently bias the distribution toward higher or lower potency, suggesting the existence of preferred and nonpreferred chemical groups for lead optimization. The implications of these results for understanding protein-ligand recognition and for enhancing the efficiency and speed of lead optimization will be discussed.

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Discovery of a novel small molecule binding site of human survivin

Wendt

Sun

Kunzer

et al. 2007

Bioorganic & Medicinal Chemistry Letters

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Refolding of misfolded mutant GPCR: Post-translational pharmacoperone action in vitro

Janovick

Brothers

Cornea

et al. 2007

Molecular and Cellular Endocrinology

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SUMMARYAll reported GnRH receptor mutants (causing human hypogonadotropic hypogonadism) are misfolded proteins that cannot traffic to the plasma membrane. Pharmacoperones correct mis-folding and rescue mutants, routing them to the plasma membrane where they regain function. Because pharmacoperones are often peptidomimetic antagonists, these must be removed for receptor function after rescue; in vivo this necessitates pulsatile pharmacoperone administration. As an antecedent to in vivo studies, we determined whether pharmacoperones need to be present at the time of synthesis or whether previously misfolded proteins could be refolded and rescued. Accordingly, we blocked either protein synthesis or intra-cellular transport. Biochemical and morphological studies using 12 mutants and 10 pharmacoperones representing three different chemical classes show that previously synthesized mutant proteins, retained by the quality control system (QCS), are rescued by pharmacoperones, showing that pharmacoperone administration in vivo likely need not consider whether the target protein is being synthesized at the time of drug administration.

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Microwave-Assisted Synthesis Utilizing Supported Reagents: A Rapid and Efficient Acylation Procedure

2003

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Daryl R. Sauer

Statistical Analysis of the Effects of Common Chemical Substituents on Ligand Potency

Discovery of a novel small molecule binding site of human survivin

Refolding of misfolded mutant GPCR: Post-translational pharmacoperone action in vitro

Microwave-Assisted Synthesis Utilizing Supported Reagents: A Rapid and Efficient Acylation Procedure

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