Synthesis and Biological Activities of Aplyronine A Analogues toward the Development of Antitumor Protein–Protein Interaction Inducers between Actin and Tubulin: Conjugation of the C1–C9 Macrolactone Part and the C24–C34 Side Chain

[Image: see text] Aplyronine A (ApA) is an antitumor marine macrolide that induces an protein–protein interaction (PPI) between actin and tubulin. The C1–C9 macrolactone part including the C7 N,N,O-trimethylserine (TMSer) ester is important for its highly potent activities. To develop new antitumor...

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Autores principales: Futaki, Kentaro, Takahashi, Momoko, Tanabe, Kenta, Fujieda, Akari, Kigoshi, Hideo, Kita, Masaki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2019
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6648920/
https://www.ncbi.nlm.nih.gov/pubmed/31459949
http://dx.doi.org/10.1021/acsomega.9b01099
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author Futaki, Kentaro
Takahashi, Momoko
Tanabe, Kenta
Fujieda, Akari
Kigoshi, Hideo
Kita, Masaki
author_facet Futaki, Kentaro
Takahashi, Momoko
Tanabe, Kenta
Fujieda, Akari
Kigoshi, Hideo
Kita, Masaki
author_sort Futaki, Kentaro
collection PubMed
description [Image: see text] Aplyronine A (ApA) is an antitumor marine macrolide that induces an protein–protein interaction (PPI) between actin and tubulin. The C1–C9 macrolactone part including the C7 N,N,O-trimethylserine (TMSer) ester is important for its highly potent activities. To develop new antitumor PPI inducers, four aplyronine analogues were synthesized, which bear the C1–C9 macrolactone part with 0–2 TMSer ester(s) and the C24–C34 actin-binding side chain. Despite exhibiting potent actin-depolymerizing activity comparable to that of ApA, these analogues did not show potent cytotoxicity or depolymerize microtubules. Molecular modeling studies suggested that the whole macrolactone moiety of aplyronines was important to fix the conformation of the C7 TMSer ester moiety, while the linear C1–C9 part was insufficient. Still, our study newly proposed that fixed conformations of the C7 or C9 TMSer esters in aplyronines that protrude from the actin surface are important for binding to tubulin and inhibit microtubule dynamics.
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spelling pubmed-66489202019-08-27 Synthesis and Biological Activities of Aplyronine A Analogues toward the Development of Antitumor Protein–Protein Interaction Inducers between Actin and Tubulin: Conjugation of the C1–C9 Macrolactone Part and the C24–C34 Side Chain Futaki, Kentaro Takahashi, Momoko Tanabe, Kenta Fujieda, Akari Kigoshi, Hideo Kita, Masaki ACS Omega [Image: see text] Aplyronine A (ApA) is an antitumor marine macrolide that induces an protein–protein interaction (PPI) between actin and tubulin. The C1–C9 macrolactone part including the C7 N,N,O-trimethylserine (TMSer) ester is important for its highly potent activities. To develop new antitumor PPI inducers, four aplyronine analogues were synthesized, which bear the C1–C9 macrolactone part with 0–2 TMSer ester(s) and the C24–C34 actin-binding side chain. Despite exhibiting potent actin-depolymerizing activity comparable to that of ApA, these analogues did not show potent cytotoxicity or depolymerize microtubules. Molecular modeling studies suggested that the whole macrolactone moiety of aplyronines was important to fix the conformation of the C7 TMSer ester moiety, while the linear C1–C9 part was insufficient. Still, our study newly proposed that fixed conformations of the C7 or C9 TMSer esters in aplyronines that protrude from the actin surface are important for binding to tubulin and inhibit microtubule dynamics. American Chemical Society 2019-05-16 /pmc/articles/PMC6648920/ /pubmed/31459949 http://dx.doi.org/10.1021/acsomega.9b01099 Text en Copyright © 2019 American Chemical Society This is an open access article published under an ACS AuthorChoice License (http://pubs.acs.org/page/policy/authorchoice_termsofuse.html) , which permits copying and redistribution of the article or any adaptations for non-commercial purposes.
spellingShingle Futaki, Kentaro
Takahashi, Momoko
Tanabe, Kenta
Fujieda, Akari
Kigoshi, Hideo
Kita, Masaki
Synthesis and Biological Activities of Aplyronine A Analogues toward the Development of Antitumor Protein–Protein Interaction Inducers between Actin and Tubulin: Conjugation of the C1–C9 Macrolactone Part and the C24–C34 Side Chain
title Synthesis and Biological Activities of Aplyronine A Analogues toward the Development of Antitumor Protein–Protein Interaction Inducers between Actin and Tubulin: Conjugation of the C1–C9 Macrolactone Part and the C24–C34 Side Chain
title_full Synthesis and Biological Activities of Aplyronine A Analogues toward the Development of Antitumor Protein–Protein Interaction Inducers between Actin and Tubulin: Conjugation of the C1–C9 Macrolactone Part and the C24–C34 Side Chain
title_fullStr Synthesis and Biological Activities of Aplyronine A Analogues toward the Development of Antitumor Protein–Protein Interaction Inducers between Actin and Tubulin: Conjugation of the C1–C9 Macrolactone Part and the C24–C34 Side Chain
title_full_unstemmed Synthesis and Biological Activities of Aplyronine A Analogues toward the Development of Antitumor Protein–Protein Interaction Inducers between Actin and Tubulin: Conjugation of the C1–C9 Macrolactone Part and the C24–C34 Side Chain
title_short Synthesis and Biological Activities of Aplyronine A Analogues toward the Development of Antitumor Protein–Protein Interaction Inducers between Actin and Tubulin: Conjugation of the C1–C9 Macrolactone Part and the C24–C34 Side Chain
title_sort synthesis and biological activities of aplyronine a analogues toward the development of antitumor protein–protein interaction inducers between actin and tubulin: conjugation of the c1–c9 macrolactone part and the c24–c34 side chain
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6648920/
https://www.ncbi.nlm.nih.gov/pubmed/31459949
http://dx.doi.org/10.1021/acsomega.9b01099
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