Inhibition of geranylgeranyl diphosphate synthase by bisphosphonates: A crystallographic and computational investigation

Cammy K.M. Chen; Michael P. Hudock; Yonghui Zhang; Rey Ting Guo; Rong Cao; Hwan No Joo; Po Huang Liang; Tzu Ping Ko; Tao Hsin Chang; Shiou Chi Chang; Yongcheng Song; Jordan Axelson; Anup Kumar; Andrew H.J. Wang; Eric Oldfield

doi:10.1021/jm800325y

Inhibition of geranylgeranyl diphosphate synthase by bisphosphonates: A crystallographic and computational investigation

Cammy K.M. Chen, Michael P. Hudock, Yonghui Zhang, Rey Ting Guo, Rong Cao, Hwan No Joo, Po Huang Liang, Tzu Ping Ko, Tao Hsin Chang, Shiou Chi Chang, Yongcheng Song, Jordan Axelson, Anup Kumar, Andrew H.J. Wang, Eric Oldfield

Chemistry

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Abstract

We report the X-ray structures of several bisphosphonate inhibitors of geranylgeranyl diphosphate synthase, a target for anticancer drugs. Bisphosphonates containing unbranched side chains bind to either the farnesyl diphosphate (FPP) substrate site, the geranylgeranyl diphosphate (GGPP) product site, and in one case, both sites, with the bisphosphonate moiety interacting with 3 Mg²⁺ that occupy the same position as found in FPP synthase. However, each of three "V-shaped" bisphosphonates bind to both the FPP and GGPP sites. Using the Glide program, we reproduced the binding modes of 10 bisphosphonates with an rms error of 1.3 Å. Activities of the bisphosphonates in GGPPS inhibition were predicted with an overall error of 2x by using a comparative molecular similarity analysis based on a docked-structure alignment. These results show that some GGPPS inhibitors can occupy both substrate and product site and that binding modes as well as activity can be accurately predicted, facilitating the further development of GGPPS inhibitors as anticancer agents.

Original language	English (US)
Pages (from-to)	5594-5607
Number of pages	14
Journal	Journal of Medicinal Chemistry
Volume	51
Issue number	18
DOIs	https://doi.org/10.1021/jm800325y
State	Published - Sep 25 2008

ASJC Scopus subject areas

Molecular Medicine
Drug Discovery

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Chen, C. K. M., Hudock, M. P., Zhang, Y., Guo, R. T., Cao, R., Joo, H. N., Liang, P. H., Ko, T. P., Chang, T. H., Chang, S. C., Song, Y., Axelson, J., Kumar, A., Wang, A. H. J., & Oldfield, E. (2008). Inhibition of geranylgeranyl diphosphate synthase by bisphosphonates: A crystallographic and computational investigation. Journal of Medicinal Chemistry, 51(18), 5594-5607. https://doi.org/10.1021/jm800325y

Chen, CKM, Hudock, MP, Zhang, Y, Guo, RT, Cao, R, Joo, HN, Liang, PH, Ko, TP, Chang, TH, Chang, SC, Song, Y, Axelson, J, Kumar, A, Wang, AHJ & Oldfield, E 2008, 'Inhibition of geranylgeranyl diphosphate synthase by bisphosphonates: A crystallographic and computational investigation', Journal of Medicinal Chemistry, vol. 51, no. 18, pp. 5594-5607. https://doi.org/10.1021/jm800325y

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abstract = "We report the X-ray structures of several bisphosphonate inhibitors of geranylgeranyl diphosphate synthase, a target for anticancer drugs. Bisphosphonates containing unbranched side chains bind to either the farnesyl diphosphate (FPP) substrate site, the geranylgeranyl diphosphate (GGPP) product site, and in one case, both sites, with the bisphosphonate moiety interacting with 3 Mg2+ that occupy the same position as found in FPP synthase. However, each of three {"}V-shaped{"} bisphosphonates bind to both the FPP and GGPP sites. Using the Glide program, we reproduced the binding modes of 10 bisphosphonates with an rms error of 1.3 {\AA}. Activities of the bisphosphonates in GGPPS inhibition were predicted with an overall error of 2x by using a comparative molecular similarity analysis based on a docked-structure alignment. These results show that some GGPPS inhibitors can occupy both substrate and product site and that binding modes as well as activity can be accurately predicted, facilitating the further development of GGPPS inhibitors as anticancer agents.",

author = "Chen, {Cammy K.M.} and Hudock, {Michael P.} and Yonghui Zhang and Guo, {Rey Ting} and Rong Cao and Joo, {Hwan No} and Liang, {Po Huang} and Ko, {Tzu Ping} and Chang, {Tao Hsin} and Chang, {Shiou Chi} and Yongcheng Song and Jordan Axelson and Anup Kumar and Wang, {Andrew H.J.} and Eric Oldfield",

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T2 - A crystallographic and computational investigation

AU - Chen, Cammy K.M.

AU - Hudock, Michael P.

AU - Zhang, Yonghui

AU - Guo, Rey Ting

AU - Cao, Rong

AU - Joo, Hwan No

AU - Liang, Po Huang

AU - Ko, Tzu Ping

AU - Chang, Tao Hsin

AU - Chang, Shiou Chi

AU - Song, Yongcheng

AU - Axelson, Jordan

AU - Kumar, Anup

AU - Wang, Andrew H.J.

AU - Oldfield, Eric

PY - 2008/9/25

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N2 - We report the X-ray structures of several bisphosphonate inhibitors of geranylgeranyl diphosphate synthase, a target for anticancer drugs. Bisphosphonates containing unbranched side chains bind to either the farnesyl diphosphate (FPP) substrate site, the geranylgeranyl diphosphate (GGPP) product site, and in one case, both sites, with the bisphosphonate moiety interacting with 3 Mg2+ that occupy the same position as found in FPP synthase. However, each of three "V-shaped" bisphosphonates bind to both the FPP and GGPP sites. Using the Glide program, we reproduced the binding modes of 10 bisphosphonates with an rms error of 1.3 Å. Activities of the bisphosphonates in GGPPS inhibition were predicted with an overall error of 2x by using a comparative molecular similarity analysis based on a docked-structure alignment. These results show that some GGPPS inhibitors can occupy both substrate and product site and that binding modes as well as activity can be accurately predicted, facilitating the further development of GGPPS inhibitors as anticancer agents.

AB - We report the X-ray structures of several bisphosphonate inhibitors of geranylgeranyl diphosphate synthase, a target for anticancer drugs. Bisphosphonates containing unbranched side chains bind to either the farnesyl diphosphate (FPP) substrate site, the geranylgeranyl diphosphate (GGPP) product site, and in one case, both sites, with the bisphosphonate moiety interacting with 3 Mg2+ that occupy the same position as found in FPP synthase. However, each of three "V-shaped" bisphosphonates bind to both the FPP and GGPP sites. Using the Glide program, we reproduced the binding modes of 10 bisphosphonates with an rms error of 1.3 Å. Activities of the bisphosphonates in GGPPS inhibition were predicted with an overall error of 2x by using a comparative molecular similarity analysis based on a docked-structure alignment. These results show that some GGPPS inhibitors can occupy both substrate and product site and that binding modes as well as activity can be accurately predicted, facilitating the further development of GGPPS inhibitors as anticancer agents.

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Inhibition of geranylgeranyl diphosphate synthase by bisphosphonates: A crystallographic and computational investigation

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