Yue‐Zhong Shu scite author profile

The applications of fluorine in drug design continue to expand, facilitated by an improved understanding of its effects on physicochemical properties and the development of synthetic methodologies that are providing access to new fluorinated motifs. In turn, studies of fluorinated molecules are providing deeper insights into the effects of fluorine on metabolic pathways, distribution, and disposition. Despite the high strength of the C–F bond, the departure of fluoride from metabolic intermediates can be facile. This reactivity has been leveraged in the design of mechanism-based enzyme inhibitors and has influenced the metabolic fate of fluorinated compounds. In this Perspective, we summarize the literature associated with the metabolism of fluorinated molecules, focusing on examples where the presence of fluorine influences the metabolic profile. These studies have revealed potentially problematic outcomes with some fluorinated motifs and are enhancing our understanding of how fluorine should be deployed.

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Recent Natural Products Based Drug Development: A Pharmaceutical Industry Perspective

Shu

1998

J. Nat. Prod.

431

233

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Stephacidin A and B: Two Structurally Novel, Selective Inhibitors of the Testosterone-Dependent Prostate LNCaP Cells

et al. 2002

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Two novel antitumor alkaloids, Stephacidin A and B, were isolated from the solid fermentation of Aspergillus ochraceus WC76466. Both alkaloids exhibit in vitro cytotoxicity against a number of human tumor cell lines; however, stephacidin B demonstrated more potent and selective antitumor activities, especially against prostate testeosterone-dependent LNCaP cells with IC50 value of 60 nM. The structures of stephacidin A and B were established on the basis of the NMR data and X-ray crystallography. With 15 rings and 9 chiral centers, stephacidin B represents one of the most structurally complex and novel alkaloids occurring in nature.

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Novel strategies for the discovery of plant-derived anticancer agents

Kinghorn¹,

Farnsworth²,

Soejarto³

et al. 1999

102

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Role of Biotransformation Studies in Minimizing Metabolism-Related Liabilities in Drug Discovery

Shu

Johnson

Yang

2008

AAPS J

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Abstract. Metabolism-related liabilities continue to be a major cause of attrition for drug candidates in clinical development. Such problems may arise from the bioactivation of the parent compound to a reactive metabolite capable of modifying biological materials covalently or engaging in redox-cycling reactions leading to the formation of other toxicants. Alternatively, they may result from the formation of a major metabolite with systemic exposure and adverse pharmacological activity. To avert such problems, biotransformation studies are becoming increasingly important in guiding the refinement of a lead series during drug discovery and in characterizing lead candidates prior to clinical evaluation. This article provides an overview of the methods that are used to uncover metabolism-related liabilities in a preclinical setting and offers suggestions for reducing such liabilities via the modification of structural features that are used commonly in drug-like molecules.

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Yue‐Zhong Shu

Metabolic and Pharmaceutical Aspects of Fluorinated Compounds

Recent Natural Products Based Drug Development: A Pharmaceutical Industry Perspective

Stephacidin A and B: Two Structurally Novel, Selective Inhibitors of the Testosterone-Dependent Prostate LNCaP Cells

Novel strategies for the discovery of plant-derived anticancer agents

Role of Biotransformation Studies in Minimizing Metabolism-Related Liabilities in Drug Discovery

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