A fluorescence quenching assay to discriminate between specific and nonspecific inhibitors of dengue virus protease

Christophe Bodenreider; David Beer; Thomas H. Keller; Sebastian Sonntag; Daying Wen; Li Jian Yap; Yin Hoe Yau; Susana Geifman Shochat; Danzhi Huang; Ting Zhou; Amedeo Caflisch; Xun Cheng Su; Kiyoshi Ozawa; Gottfried Otting; Subhash G. Vasudevan; Julien Lescar; Siew Pheng Lim

doi:10.1016/j.ab.2009.08.013

A fluorescence quenching assay to discriminate between specific and nonspecific inhibitors of dengue virus protease

Christophe Bodenreider, David Beer, Thomas H. Keller, Sebastian Sonntag, Daying Wen, Li Jian Yap, Yin Hoe Yau, Susana Geifman Shochat, Danzhi Huang, Ting Zhou, Amedeo Caflisch, Xun Cheng Su, Kiyoshi Ozawa, Gottfried Otting, Subhash G. Vasudevan, Julien Lescar, Siew Pheng Lim^*

^*Corresponding author for this work

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

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Abstract

In drug discovery, the occurrence of false positives is a major hurdle in the search for lead compounds that can be developed into drugs. A small-molecular-weight compound that inhibits dengue virus protease at low micromolar levels was identified in a screening campaign. Binding to the enzyme was confirmed by isothermal titration calorimetry (ITC) and nuclear magnetic resonance (NMR). However, a structure-activity relationship study that ensued did not yield more potent leads. To further characterize the parental compound and its analogues, we developed a high-speed, low-cost, quantitative fluorescence quenching assay. We observed that specific analogues quenched dengue protease fluorescence and showed variation in IC₅₀ values. In contrast, nonspecifically binding compounds did not quench its fluorescence and showed similar IC₅₀ values with steep dose-response curves. We validated the assay using single Trp-to-Ala protease mutants and the competitive protease inhibitor aprotinin. Specific compounds detected in the binding assay were further analyzed by competitive ITC, NMR, and surface plasmon resonance, and the assay's utility in comparison with these biophysical methods is discussed. The sensitivity of this assay makes it highly useful for hit finding and validation in drug discovery. Furthermore, the technique can be readily adapted for studying other protein-ligand interactions.

Original language	English
Pages (from-to)	195-204
Number of pages	10
Journal	Analytical Biochemistry
Volume	395
Issue number	2
DOIs	https://doi.org/10.1016/j.ab.2009.08.013
Publication status	Published - 15 Dec 2009

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Bodenreider, C., Beer, D., Keller, T. H., Sonntag, S., Wen, D., Yap, L. J., Yau, Y. H., Shochat, S. G., Huang, D., Zhou, T., Caflisch, A., Su, X. C., Ozawa, K., Otting, G., Vasudevan, S. G., Lescar, J., & Lim, S. P. (2009). A fluorescence quenching assay to discriminate between specific and nonspecific inhibitors of dengue virus protease. Analytical Biochemistry, 395(2), 195-204. https://doi.org/10.1016/j.ab.2009.08.013

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title = "A fluorescence quenching assay to discriminate between specific and nonspecific inhibitors of dengue virus protease",

abstract = "In drug discovery, the occurrence of false positives is a major hurdle in the search for lead compounds that can be developed into drugs. A small-molecular-weight compound that inhibits dengue virus protease at low micromolar levels was identified in a screening campaign. Binding to the enzyme was confirmed by isothermal titration calorimetry (ITC) and nuclear magnetic resonance (NMR). However, a structure-activity relationship study that ensued did not yield more potent leads. To further characterize the parental compound and its analogues, we developed a high-speed, low-cost, quantitative fluorescence quenching assay. We observed that specific analogues quenched dengue protease fluorescence and showed variation in IC50 values. In contrast, nonspecifically binding compounds did not quench its fluorescence and showed similar IC50 values with steep dose-response curves. We validated the assay using single Trp-to-Ala protease mutants and the competitive protease inhibitor aprotinin. Specific compounds detected in the binding assay were further analyzed by competitive ITC, NMR, and surface plasmon resonance, and the assay's utility in comparison with these biophysical methods is discussed. The sensitivity of this assay makes it highly useful for hit finding and validation in drug discovery. Furthermore, the technique can be readily adapted for studying other protein-ligand interactions.",

keywords = "Assay, Dengue virus protease, Fluorescence, Identification, Promiscuous inhibitors, Quenching",

author = "Christophe Bodenreider and David Beer and Keller, {Thomas H.} and Sebastian Sonntag and Daying Wen and Yap, {Li Jian} and Yau, {Yin Hoe} and Shochat, {Susana Geifman} and Danzhi Huang and Ting Zhou and Amedeo Caflisch and Su, {Xun Cheng} and Kiyoshi Ozawa and Gottfried Otting and Vasudevan, {Subhash G.} and Julien Lescar and Lim, {Siew Pheng}",

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doi = "10.1016/j.ab.2009.08.013",

language = "English",

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journal = "Analytical Biochemistry",

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Bodenreider, C, Beer, D, Keller, TH, Sonntag, S, Wen, D, Yap, LJ, Yau, YH, Shochat, SG, Huang, D, Zhou, T, Caflisch, A, Su, XC, Ozawa, K, Otting, G, Vasudevan, SG, Lescar, J & Lim, SP 2009, 'A fluorescence quenching assay to discriminate between specific and nonspecific inhibitors of dengue virus protease', Analytical Biochemistry, vol. 395, no. 2, pp. 195-204. https://doi.org/10.1016/j.ab.2009.08.013

TY - JOUR

T1 - A fluorescence quenching assay to discriminate between specific and nonspecific inhibitors of dengue virus protease

AU - Bodenreider, Christophe

AU - Beer, David

AU - Keller, Thomas H.

AU - Sonntag, Sebastian

AU - Wen, Daying

AU - Yap, Li Jian

AU - Yau, Yin Hoe

AU - Shochat, Susana Geifman

AU - Huang, Danzhi

AU - Zhou, Ting

AU - Caflisch, Amedeo

AU - Su, Xun Cheng

AU - Ozawa, Kiyoshi

AU - Otting, Gottfried

AU - Vasudevan, Subhash G.

AU - Lescar, Julien

AU - Lim, Siew Pheng

PY - 2009/12/15

Y1 - 2009/12/15

N2 - In drug discovery, the occurrence of false positives is a major hurdle in the search for lead compounds that can be developed into drugs. A small-molecular-weight compound that inhibits dengue virus protease at low micromolar levels was identified in a screening campaign. Binding to the enzyme was confirmed by isothermal titration calorimetry (ITC) and nuclear magnetic resonance (NMR). However, a structure-activity relationship study that ensued did not yield more potent leads. To further characterize the parental compound and its analogues, we developed a high-speed, low-cost, quantitative fluorescence quenching assay. We observed that specific analogues quenched dengue protease fluorescence and showed variation in IC50 values. In contrast, nonspecifically binding compounds did not quench its fluorescence and showed similar IC50 values with steep dose-response curves. We validated the assay using single Trp-to-Ala protease mutants and the competitive protease inhibitor aprotinin. Specific compounds detected in the binding assay were further analyzed by competitive ITC, NMR, and surface plasmon resonance, and the assay's utility in comparison with these biophysical methods is discussed. The sensitivity of this assay makes it highly useful for hit finding and validation in drug discovery. Furthermore, the technique can be readily adapted for studying other protein-ligand interactions.

AB - In drug discovery, the occurrence of false positives is a major hurdle in the search for lead compounds that can be developed into drugs. A small-molecular-weight compound that inhibits dengue virus protease at low micromolar levels was identified in a screening campaign. Binding to the enzyme was confirmed by isothermal titration calorimetry (ITC) and nuclear magnetic resonance (NMR). However, a structure-activity relationship study that ensued did not yield more potent leads. To further characterize the parental compound and its analogues, we developed a high-speed, low-cost, quantitative fluorescence quenching assay. We observed that specific analogues quenched dengue protease fluorescence and showed variation in IC50 values. In contrast, nonspecifically binding compounds did not quench its fluorescence and showed similar IC50 values with steep dose-response curves. We validated the assay using single Trp-to-Ala protease mutants and the competitive protease inhibitor aprotinin. Specific compounds detected in the binding assay were further analyzed by competitive ITC, NMR, and surface plasmon resonance, and the assay's utility in comparison with these biophysical methods is discussed. The sensitivity of this assay makes it highly useful for hit finding and validation in drug discovery. Furthermore, the technique can be readily adapted for studying other protein-ligand interactions.

KW - Assay

KW - Dengue virus protease

KW - Fluorescence

KW - Identification

KW - Promiscuous inhibitors

KW - Quenching

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U2 - 10.1016/j.ab.2009.08.013

DO - 10.1016/j.ab.2009.08.013

M3 - Article

SN - 0003-2697

VL - 395

SP - 195

EP - 204

JO - Analytical Biochemistry

JF - Analytical Biochemistry

IS - 2

ER -

A fluorescence quenching assay to discriminate between specific and nonspecific inhibitors of dengue virus protease

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