Anguinomycins and Derivatives: Total Syntheses, Modeling, and Biological Evaluation of the Inhibition of Nucleocytoplasmic Transport

Citations Over TimeTop 10% of 2010 papers

Abstract

The preparation of the polyketide natural products anguinomycin C and D is reported based on key steps such as Negishi stereoinversion cross coupling, Jacobsen Cr(III)-catalyzed Hetero Diels-Alder reaction, Evans B-mediated syn-aldol chemistry, and B-alkyl Suzuki-Miyaura cross coupling. The configuration of both natural products was established as (5R,10R,16R,18S,19R,20S). Biological evaluation demonstrated that these natural products are inhibitors of the nuclear export receptor CRM1, leading to shutdown of CRM1-mediated nuclear protein export at concentrations above 10 nM. Analogues of anguinomycin and leptomycin B (LMB) have been prepared, and the simple alpha,beta-unsaturated lactone analogue 4 with a truncated polyketide chain retains most of the biological activity (inhibition above 25 nM). The structural basis for this inhibition has been demonstrated by modeling the transport inhibitors into X-ray crystal structures, thus highlighting key points for successful and strong biological action of anguinomycin and LMB.

Related Papers

• → Modern Aldol Methods for the Total Synthesis of Polyketides(2006)374 cited
• → Boron mediated one-pot aldol-reduction sequence: Enantio and diastereoselective synthesis of typical polyketide fragments(1994)16 cited
• → Asymmetric Aldol Reactions Using Boron Enolates: Applications to Polyketide Synthesis(2001)12 cited
• → Stereoselective Aldol Reactions in the Synthesis of Polyketide Natural Products(2000)31 cited
• → A One-Pot Non-Aldol-Aldol Vinylogous Mukaiyama Aldol Tandem Sequence for the Rapid Construction of Polyketide Frameworks(2005)