Validating Eaton's Hypothesis: Cubane as a Benzene Bioisostere

Benjamin A Chalmers; Hui Xing; Sevan Houston; Charlotte Clark; Sussan Ghassabian; Andy Kuo; Benjamin Cao; Andrea Reitsma; Cody-Ellen P Murray; Jeanette E Stok; Glen M Boyle; Carly J Pierce; Stuart W Littler; David A Winkler; Paul V Bernhardt; Cielo Pasay; James J De Voss; James McCarthy; Peter G Parsons; Gimme H Walter; Maree T Smith; Helen M Cooper; Susan K Nilsson; John Tsanaktsidis; G Paul Savage; Craig M Williams

doi:10.1002/anie.201510675

Validating Eaton's Hypothesis: Cubane as a Benzene Bioisostere

Angew Chem Int Ed Engl. 2016 Mar 7;55(11):3580-5. doi: 10.1002/anie.201510675. Epub 2016 Feb 5.

Authors

Benjamin A Chalmers¹, Hui Xing¹, Sevan Houston¹, Charlotte Clark², Sussan Ghassabian³, Andy Kuo³, Benjamin Cao^{4

5}, Andrea Reitsma^{4

5}, Cody-Ellen P Murray⁶, Jeanette E Stok¹, Glen M Boyle⁷, Carly J Pierce⁷, Stuart W Littler⁴, David A Winkler^{4

8}, Paul V Bernhardt¹, Cielo Pasay⁷, James J De Voss¹, James McCarthy^{7

9}, Peter G Parsons⁷, Gimme H Walter⁶, Maree T Smith³, Helen M Cooper², Susan K Nilsson^{4

5}, John Tsanaktsidis¹⁰, G Paul Savage¹¹, Craig M Williams¹²

Affiliations

¹ School of Chemistry and Molecular Biosciences, University of Queensland (UQ), Brisbane, 4072, Queensland (QLD, Australia.
² Queensland Brain Institute, UQ, Australia.
³ Centre for Integrated Preclinical Drug Development, UQ, Australia.
⁴ CISRO Manufacturing, Ian Wark Laboratory, Melbourne, 3168, Victoria (VIC, Australia.
⁵ Australian Regenerative Medicine Institute, Monash University (MU), Melbourne, 3168, VIC, Australia.
⁶ School of Biological Sciences, UQ, Australia.
⁷ QIMR Berghofer Medical Research Institute, PO Royal Brisbane Hospital, Brisbane, 4029, QLD, Australia.
⁸ Monash Institute of Pharmaceutical Sciences, Parkville, 3052, MU, Australia.
⁹ Australian Centre for International and Tropical Health, UQ, Australia.
¹⁰ CISRO Manufacturing, Ian Wark Laboratory, Melbourne, 3168, Victoria (VIC, Australia. John.Tsanaktsidis@csiro.au.
¹¹ CISRO Manufacturing, Ian Wark Laboratory, Melbourne, 3168, Victoria (VIC, Australia. Paul.Savage@csiro.au.
¹² School of Chemistry and Molecular Biosciences, University of Queensland (UQ), Brisbane, 4072, Queensland (QLD, Australia. c.williams3@uq.edu.au.

PMID: 26846616
DOI: 10.1002/anie.201510675

Abstract

Pharmaceutical and agrochemical discovery programs are under considerable pressure to meet increasing global demand and thus require constant innovation. Classical hydrocarbon scaffolds have long assisted in bringing new molecules to the market place, but an obvious omission is that of the Platonic solid cubane. Eaton, however, suggested that this molecule has the potential to act as a benzene bioisostere. Herein, we report the validation of Eaton's hypothesis with cubane derivatives of five molecules that are used clinically or as agrochemicals. Two cubane analogues showed increased bioactivity compared to their benzene counterparts whereas two further analogues displayed equal bioactivity, and the fifth one demonstrated only partial efficacy. Ramifications from this study are best realized by reflecting on the number of bioactive molecules that contain a benzene ring. Substitution with the cubane scaffold where possible could revitalize these systems, and thus expedite much needed lead candidate identification.

Keywords: agrochemicals; bioisosteres; cubane; pharmaceuticals; structure-activity relationships.

Publication types

Research Support, Non-U.S. Gov't
Validation Study

MeSH terms

Aged
Animals
Benzene / chemistry*
Humans
Mice
Mice, Inbred NOD
Mice, SCID

Substances

Benzene