Litcius/Paper detail

Gatorbulin-1, a distinct cyclodepsipeptide chemotype, targets a seventh tubulin pharmacological site

Susan Matthew, Qi-Yin Chen, Ranjala Ratnayake, Charles S. Fermaintt, Daniel Lucena‐Agell, Francesca Bonato, A.E. Prota, Seok Ting Lim, Xiaomeng Wang, J. Fernando Dı́az, April L. Risinger, Valerie J. Paul, María A. Oliva, Hendrik Luesch

2021Proceedings of the National Academy of Sciences90 citationsDOIOpen Access PDF

Abstract

Tubulin-targeted chemotherapy has proven to be a successful and wide spectrum strategy against solid and liquid malignancies. Therefore, new ways to modulate this essential protein could lead to new antitumoral pharmacological approaches. Currently known tubulin agents bind to six distinct sites at α/β-tubulin either promoting microtubule stabilization or depolymerization. We have discovered a seventh binding site at the tubulin intradimer interface where a novel microtubule-destabilizing cyclodepsipeptide, termed gatorbulin-1 (GB1), binds. GB1 has a unique chemotype produced by a marine cyanobacterium. We have elucidated this dual, chemical and mechanistic, novelty through multidimensional characterization, starting with bioactivity-guided natural product isolation and multinuclei NMR-based structure determination, revealing the modified pentapeptide with a functionally critical hydroxamate group; and validation by total synthesis. We have investigated the pharmacology using isogenic cancer cell screening, cellular profiling, and complementary phenotypic assays, and unveiled the underlying molecular mechanism by in vitro biochemical studies and high-resolution structural determination of the α/β-tubulin-GB1 complex.

Topics & Concepts

Natural productTubulinEribulinComputational biologyPaclitaxelEpothiloneChemistryMechanism of actionBiologyBiochemistryCancerStereochemistryMicrotubuleBreast cancerGeneticsMetastatic breast cancerIn vitroMicrobial Natural Products and BiosynthesisSynthetic Organic Chemistry MethodsCancer therapeutics and mechanisms