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

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 WalterMaree T Smith, Helen M Cooper, Susan K Nilsson, John Tsanaktsidis, G Paul Savage, Craig M Williams

Research output: Contribution to journal › Article › Research › peer-review

102 Citations (Scopus)

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.

Original language	English
Pages (from-to)	3580-3585
Number of pages	6
Journal	Angewandte Chemie - International Edition
Volume	55
Issue number	11
DOIs	https://doi.org/10.1002/anie.201510675
Publication status	Published - 2016

Keywords

agrochemicals
biososteres
cubane
pharmaceuticals
structure-activity relationships

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10.1002/anie.201510675

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Chalmers, B. A., Xing, H., Houston, S., Clark, C., Ghassabian, S., Kuo, A., Cao, B., Reitsma, A., Murray, C-E. P., Stok, J. E., Boyle, G. M., Pierce, C. J., Littler, S. W., Winkler, D. A., Bernhardt, P. V., Pasay, C., De Voss, J. J., McCarthy, J., Parsons, P. G., ... Williams, C. M. (2016). Validating Eaton's Hypothesis: Cubane as a Benzene Bioisostere. Angewandte Chemie - International Edition, 55(11), 3580-3585. https://doi.org/10.1002/anie.201510675

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title = "Validating Eaton's Hypothesis: Cubane as a Benzene Bioisostere",

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, biososteres, cubane, pharmaceuticals, structure-activity relationships",

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

year = "2016",

doi = "10.1002/anie.201510675",

language = "English",

volume = "55",

pages = "3580--3585",

journal = "Angewandte Chemie - International Edition",

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Chalmers, BA, Xing, H, Houston, S, Clark, C, Ghassabian, S, Kuo, A, Cao, B, Reitsma, A, Murray, C-EP, Stok, JE, Boyle, GM, Pierce, CJ, Littler, SW, Winkler, DA, Bernhardt, PV, Pasay, C, De Voss, JJ, McCarthy, J, Parsons, PG, Walter, GH, Smith, MT, Cooper, HM, Nilsson, SK, Tsanaktsidis, J, Savage, GP & Williams, CM 2016, 'Validating Eaton's Hypothesis: Cubane as a Benzene Bioisostere', Angewandte Chemie - International Edition, vol. 55, no. 11, pp. 3580-3585. https://doi.org/10.1002/anie.201510675

TY - JOUR

T1 - Validating Eaton's Hypothesis: Cubane as a Benzene Bioisostere

AU - Chalmers, Benjamin A

AU - Xing, Hui

AU - Houston, Sevan

AU - Clark, Charlotte

AU - Ghassabian, Sussan

AU - Kuo, Andy

AU - Cao, Benjamin

AU - Reitsma, Andrea

AU - Murray, Cody-Ellen P

AU - Stok, Jeanette E

AU - Boyle, Glen M

AU - Pierce, Carly J

AU - Littler, Stuart W

AU - Winkler, David A

AU - Bernhardt, Paul V

AU - Pasay, Cielo

AU - De Voss, James J

AU - McCarthy, James

AU - Parsons, Peter G

AU - Walter, Gimme H

AU - Smith, Maree T

AU - Cooper, Helen M

AU - Nilsson, Susan K

AU - Tsanaktsidis, John

AU - Savage, G Paul

AU - Williams, Craig M

PY - 2016

Y1 - 2016

N2 - 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.

AB - 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.

KW - agrochemicals

KW - biososteres

KW - cubane

KW - pharmaceuticals

KW - structure-activity relationships

UR - http://www.ncbi.nlm.nih.gov/pubmed/26846616

U2 - 10.1002/anie.201510675

DO - 10.1002/anie.201510675

M3 - Article

SN - 1433-7851

VL - 55

SP - 3580

EP - 3585

JO - Angewandte Chemie - International Edition

JF - Angewandte Chemie - International Edition

IS - 11

ER -

Validating Eaton's Hypothesis: Cubane as a Benzene Bioisostere

Abstract

Keywords

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Corrigendum to: Validating Eaton's Hypothesis: Cubane as a Benzene Bioisostere (Angewandte Chemie International Edition, (2016), 55, 11, (3580-3585), 10.1002/anie.201510675)

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