TY - JOUR
T1 - 1,3-Benzodioxole-Modified Noscapine Analogues
T2 - Synthesis, Antiproliferative Activity, and Tubulin-Bound Structure
AU - Yong, Cassandra
AU - Devine, Shane M.
AU - Abel, Anne Catherine
AU - Tomlins, Stefan D.
AU - Muthiah, Divya
AU - Gao, Xuexin
AU - Callaghan, Richard
AU - Steinmetz, Michel O.
AU - Prota, Andrea E.
AU - Capuano, Ben
AU - Scammells, Peter J.
N1 - Funding Information:
The authors would like to thank the Australian government for their support through an Australian Postgraduate Award to CY. The authors also thank the National Cancer Institute (NCI) for screening selected compounds in their NCI‐60 Human Tumour Cell Lines Screen, and the staff of the Swiss Light Source responsible for beamline X06DA, for their support during X‐ray data collection. This work was supported by the H2020‐MSCA‐ITN‐2019 (860070 TUBINTRAIN; to AEP) and the Swiss National Science Foundation (310030_192566; to MOS).
Publisher Copyright:
© 2021 Wiley-VCH GmbH
Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.
PY - 2021/9/16
Y1 - 2021/9/16
N2 - Since the revelation of noscapine's weak anti-mitotic activity, extensive research has been conducted over the past two decades, with the goal of discovering noscapine derivatives with improved potency. To date, noscapine has been explored at the 1, 7, 6′, and 9′-positions, though the 1,3-benzodioxole motif in the noscapine scaffold that remains unexplored. The present investigation describes the design, synthesis and pharmacological evaluation of noscapine analogues consisting of modifications to the 1,3-benzodioxole moiety. This includes expansion of the dioxolane ring and inclusion of metabolically robust deuterium and fluorine atoms. Favourable structural modifications were subsequently incorporated into multi-functionalised noscapine derivatives that also possessed modifications previously shown to promote anti-proliferative activity in the 1-, 6′- and 9′-positions. Our research efforts afforded the deuterated noscapine derivative 14 e and the dioxino-containing analogue 20 as potent cytotoxic agents with EC50 values of 1.50 and 0.73 μM, respectively, against breast cancer (MCF-7) cells. Compound 20 also exhibited EC50 values of <2 μM against melanoma, non-small cell lung carcinoma, and cancers of the brain, kidney and breast in an NCI screen. Furthermore, compounds 14 e and 20 inhibit tubulin polymerisation and are not vulnerable to the overexpression of resistance conferring P-gp efflux pumps in drug-resistant breast cancer cells (NCIADR/RES). We also conducted X-ray crystallography studies that yielded the high-resolution structure of 14 e bound to tubulin. Our structural analysis revealed the key interactions between this noscapinoid and tubulin and will assist with the future design of noscapine derivatives with improved properties.
AB - Since the revelation of noscapine's weak anti-mitotic activity, extensive research has been conducted over the past two decades, with the goal of discovering noscapine derivatives with improved potency. To date, noscapine has been explored at the 1, 7, 6′, and 9′-positions, though the 1,3-benzodioxole motif in the noscapine scaffold that remains unexplored. The present investigation describes the design, synthesis and pharmacological evaluation of noscapine analogues consisting of modifications to the 1,3-benzodioxole moiety. This includes expansion of the dioxolane ring and inclusion of metabolically robust deuterium and fluorine atoms. Favourable structural modifications were subsequently incorporated into multi-functionalised noscapine derivatives that also possessed modifications previously shown to promote anti-proliferative activity in the 1-, 6′- and 9′-positions. Our research efforts afforded the deuterated noscapine derivative 14 e and the dioxino-containing analogue 20 as potent cytotoxic agents with EC50 values of 1.50 and 0.73 μM, respectively, against breast cancer (MCF-7) cells. Compound 20 also exhibited EC50 values of <2 μM against melanoma, non-small cell lung carcinoma, and cancers of the brain, kidney and breast in an NCI screen. Furthermore, compounds 14 e and 20 inhibit tubulin polymerisation and are not vulnerable to the overexpression of resistance conferring P-gp efflux pumps in drug-resistant breast cancer cells (NCIADR/RES). We also conducted X-ray crystallography studies that yielded the high-resolution structure of 14 e bound to tubulin. Our structural analysis revealed the key interactions between this noscapinoid and tubulin and will assist with the future design of noscapine derivatives with improved properties.
KW - anti-cancer agents
KW - anti-mitotic agents
KW - microtubule targeting agents
KW - noscapine derivatives
UR - http://www.scopus.com/inward/record.url?scp=85110141113&partnerID=8YFLogxK
U2 - 10.1002/cmdc.202100363
DO - 10.1002/cmdc.202100363
M3 - Article
C2 - 34159741
AN - SCOPUS:85110141113
SN - 1860-7179
VL - 16
SP - 2882
EP - 2894
JO - ChemMedChem
JF - ChemMedChem
IS - 18
ER -