Dolastatin 11 conformations, analogues and pharmacophore

Authors

Md Ahad Ali, The University of Arizona
Robert B. Bates, The University of Arizona
Zackary D. Crane, The University of Arizona
Christopher W. Dicus, The University of Arizona
Michelle R. Gramme, The University of Arizona
Ernest Hamel, National Cancer Institute at Frederick
Jacob Marcischak, The University of Arizona
David S. Martinez, The University of Arizona

Abstract

Twenty analogues of the natural antitumor agent dolastatin 11, including majusculamide C, were synthesized and tested for cytotoxicity against human cancer cells and stimulation of actin polymerization. Only analogues containing the 30-membered ring were active. Molecular modeling and NMR evidence showed the low-energy conformations. The amide bonds are all trans except for the one between the Tyr and Val units, which is cis. Since an analogue restricted to negative 2-3-4-5 angles stimulated actin polymerization but was inactive in cells, the binding conformation (most likely the lowest-energy conformation in water) has a negative 2-3-4-5 angle, whereas a conformation with a positive 2-3-4-5 angle (most likely the lowest energy conformation in chloroform) goes through cell walls. The highly active R alcohol from borohydride reduction of dolastatin 11 is a candidate for conversion to prodrugs. © 2005 Elsevier Ltd. All rights reserved.

Publication Title

Bioorganic and Medicinal Chemistry

Recommended Citation

Ali, M., Bates, R., Crane, Z., Dicus, C., Gramme, M., Hamel, E., Marcischak, J., & Martinez, D. (2005). Dolastatin 11 conformations, analogues and pharmacophore. Bioorganic and Medicinal Chemistry (13), 4138-4152. https://doi.org/10.1016/j.bmc.2005.04.040