Erika A. Crane scite author profile

Natural products have had an immense influence on science and have directly led to the introduction of many drugs. Organic chemistry, and its unique ability to tailor natural products through synthesis, provides an extraordinary approach to unlock the full potential of natural products. In this Review, an approach based on natural product derived fragments is presented that can successfully address some of the current challenges in drug discovery. These fragments often display significantly reduced molecular weights, reduced structural complexity, a reduced number of synthetic steps, while retaining or even improving key biological parameters such as potency or selectivity. Examples from various stages of the drug development process up to the clinic are presented. In addition, this process can be leveraged by recent developments such as genome mining, antibody–drug conjugates, and computational approaches. All these concepts have the potential to identify the next generation of drug candidates inspired by natural products.

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Prins‐Type Macrocyclizations as an Efficient Ring‐Closing Strategy in Natural Product Synthesis

Crane

Scheidt

2010

Angew Chem Int Ed

209

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Prins-type macrocyclizations have recently emerged as a successful strategy in the synthesis of polyketide-derived natural products. This reaction provides a concise and selective means to form tetrahydropyran-containing macrocyclic rings of varying size. A high degree of functionality within the macrocycle is tolerated and the yields for these transformations are typically good to excellent. Since the initial report of a Prins macrocyclization reaction in 1979, examples of this approach did not re-emerge until 2008. However, the use of this method in natural product synthesis has rapidly gained momentum in the synthetic community, with multiple examples of this macrocyclization tactic reported in the recent literature.

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Enantioselective Synthesis of (−)‐Exiguolide by Iterative Stereoselective Dioxinone‐Directed Prins Cyclizations

et al. 2011

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Three become one: The title compound can be prepared in 26 steps by employing a unified Prins cyclization strategy to construct both tetrahydropyran rings (see scheme). The route combines two similar dioxinone fragments and one aldehyde component to generate the core structure. (−)‐Exiguolide selectively inhibits the growth of A549 cancer cells at low concentrations; the triene side chain and the Z‐enoate geometry are both necessary for this cytotoxicity.

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Highly Stereoselective Brønsted Acid Catalyzed Synthesis of Spirooxindole Pyrans

2011

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An Enantioselective Cross-Dehydrogenative Coupling Catalysis Approach to Substituted Tetrahydropyrans

et al. 2018

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An enantioselective cross-dehydrogenative coupling (CDC) reaction to access tetrahydropyrans has been developed. This process combines in situ Lewis acid activation of a nucleophile in concert with the oxidative formation of a transient oxocarbenium electrophile, leading to a productive and highly enantioselective CDC. These advances represent one of the first successful applications of CDC for the enantioselective couplings of unfunctionalized ethers. This system provides efficient access to valuable tetrahydropyran motifs found in many natural products and bioactive small molecules.

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Erika A. Crane

Capturing Biological Activity in Natural Product Fragments by Chemical Synthesis

Prins‐Type Macrocyclizations as an Efficient Ring‐Closing Strategy in Natural Product Synthesis

Enantioselective Synthesis of (−)‐Exiguolide by Iterative Stereoselective Dioxinone‐Directed Prins Cyclizations

Highly Stereoselective Brønsted Acid Catalyzed Synthesis of Spirooxindole Pyrans

An Enantioselective Cross-Dehydrogenative Coupling Catalysis Approach to Substituted Tetrahydropyrans

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