7m18

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Cryptophycin-52 (Cp-52) is potentially the most potent anticancer drug known, with IC(50) values in the low picomolar range, but its binding site on tubulin and mechanism of action are unknown. Here, we have determined the binding site of Cp-52, and its parent compound, cryptophycin-1, on HeLa tubulin, to a resolution of 3.3 A and 3.4 A, respectively, by cryo-EM and characterized this binding further by molecular dynamics simulations. The binding site was determined to be located at the tubulin interdimer interface and partially overlap that of maytansine, another cytotoxic tubulin inhibitor. Binding induces curvature both within and between tubulin dimers that is incompatible with the microtubule lattice. Conformational changes occur in both alpha-tubulin and beta-tubulin, particularly in helices H8 and H10, with distinct differences between alpha and beta monomers and between Cp-52-bound and cryptophycin-1-bound tubulin. From these results, we have determined: (i) the mechanism of action of inhibition of both microtubule polymerization and depolymerization, (ii) how the affinity of Cp-52 for tubulin may be enhanced, and (iii) where linkers for targeted delivery can be optimally attached to this molecule.
Cryptophycin-52 (Cp-52) is potentially the most potent anticancer drug known, with IC(50) values in the low picomolar range, but its binding site on tubulin and mechanism of action are unknown. Here, we have determined the binding site of Cp-52, and its parent compound, cryptophycin-1, on HeLa tubulin, to a resolution of 3.3 A and 3.4 A, respectively, by cryo-EM and characterized this binding further by molecular dynamics simulations. The binding site was determined to be located at the tubulin interdimer interface and partially overlap that of maytansine, another cytotoxic tubulin inhibitor. Binding induces curvature both within and between tubulin dimers that is incompatible with the microtubule lattice. Conformational changes occur in both alpha-tubulin and beta-tubulin, particularly in helices H8 and H10, with distinct differences between alpha and beta monomers and between Cp-52-bound and cryptophycin-1-bound tubulin. From these results, we have determined: (i) the mechanism of action of inhibition of both microtubule polymerization and depolymerization, (ii) how the affinity of Cp-52 for tubulin may be enhanced, and (iii) where linkers for targeted delivery can be optimally attached to this molecule.
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Conformational changes in tubulin upon binding cryptophycin-52 reveal its mechanism of action.,Eren E, Watts NR, Sackett DL, Wingfield PT J Biol Chem. 2021 Oct;297(4):101138. doi: 10.1016/j.jbc.2021.101138. Epub 2021 , Aug 28. PMID:34461087<ref>PMID:34461087</ref>
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, PMID:34461087<ref>PMID:34461087</ref>
From MEDLINE&reg;/PubMed&reg;, a database of the U.S. National Library of Medicine.<br>
From MEDLINE&reg;/PubMed&reg;, a database of the U.S. National Library of Medicine.<br>

Current revision

HeLa-tubulin in complex with cryptophycin 1

PDB ID 7m18

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