Modulation of bitter taste perception by a small molecule hTAS2R antagonist

Jay P. Slack; Anne Brockhoff; Claudia Batram; Susann Menzel; Caroline Sonnabend; Stephan Born; Maria Mercedes Galindo; Susann Kohl; Sophie Thalmann; Liliana Ostopovici-Halip; Christopher T. Simons; Ioana Ungureanu; Kees Duineveld; Cristian G. Bologa; Maik Behrens; Stefan Furrer; Tudor I. Oprea; Wolfgang Meyerhof

doi:10.1016/j.cub.2010.04.043

Modulation of bitter taste perception by a small molecule hTAS2R antagonist

Jay P. Slack, Anne Brockhoff, Claudia Batram, Susann Menzel, Caroline Sonnabend, Stephan Born, Maria Mercedes Galindo, Susann Kohl, Sophie Thalmann, Liliana Ostopovici-Halip, Christopher T. Simons, Ioana Ungureanu, Kees Duineveld, Cristian G. Bologa, Maik Behrens, Stefan Furrer, Tudor I. Oprea, Wolfgang Meyerhof

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

161 Scopus citations

Abstract

Human bitter taste is mediated by the hTAS2R family of G protein-coupled receptors [1-4]. The discovery of the hTAS2Rs enables the potential to develop specific bitter receptor antagonists that could be beneficial as chemical probes to examine the role of bitter receptor function in gustatory and nongustatory tissues. In addition, they could have widespread utility in food and beverages fortified with vitamins, antioxidants, and other nutraceuticals, because many of these have unwanted bitter aftertastes. We employed a high-throughput screening approach to discover a novel bitter receptor antagonist (GIV3727) that inhibits activation of hTAS2R31 (formerly hTAS2R44) by saccharin and acesulfame K, two common artificial sweeteners. Pharmacological analyses revealed that GIV3727 likely acts as an orthosteric, insurmountable antagonist of hTAS2R31. Surprisingly, we also found that this compound could inhibit five additional hTAS2Rs, including the closely related receptor hTAS2R43. Molecular modeling and site-directed mutagenesis studies suggest that two residues in helix 7 are important for antagonist activity in hTAS2R31 and hTAS2R43. In human sensory trials, GIV3727 significantly reduced the bitterness associated with the two sulfonamide sweeteners, indicating that hTAS2R antagonists are active in vivo. Our results demonstrate that small molecule bitter receptor antagonists can effectively reduce the bitter taste qualities of foods, beverages, and pharmaceuticals.

Original language	English
Pages (from-to)	1104-1109
Number of pages	6
Journal	Current Biology
Volume	20
Issue number	12
DOIs	https://doi.org/10.1016/j.cub.2010.04.043
State	Published - 22 Jun 2010
Externally published	Yes

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MOLNEURO

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Slack, J. P., Brockhoff, A., Batram, C., Menzel, S., Sonnabend, C., Born, S., Galindo, M. M., Kohl, S., Thalmann, S., Ostopovici-Halip, L., Simons, C. T., Ungureanu, I., Duineveld, K., Bologa, C. G., Behrens, M., Furrer, S., Oprea, T. I., & Meyerhof, W. (2010). Modulation of bitter taste perception by a small molecule hTAS2R antagonist. Current Biology, 20(12), 1104-1109. https://doi.org/10.1016/j.cub.2010.04.043

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title = "Modulation of bitter taste perception by a small molecule hTAS2R antagonist",

abstract = "Human bitter taste is mediated by the hTAS2R family of G protein-coupled receptors [1-4]. The discovery of the hTAS2Rs enables the potential to develop specific bitter receptor antagonists that could be beneficial as chemical probes to examine the role of bitter receptor function in gustatory and nongustatory tissues. In addition, they could have widespread utility in food and beverages fortified with vitamins, antioxidants, and other nutraceuticals, because many of these have unwanted bitter aftertastes. We employed a high-throughput screening approach to discover a novel bitter receptor antagonist (GIV3727) that inhibits activation of hTAS2R31 (formerly hTAS2R44) by saccharin and acesulfame K, two common artificial sweeteners. Pharmacological analyses revealed that GIV3727 likely acts as an orthosteric, insurmountable antagonist of hTAS2R31. Surprisingly, we also found that this compound could inhibit five additional hTAS2Rs, including the closely related receptor hTAS2R43. Molecular modeling and site-directed mutagenesis studies suggest that two residues in helix 7 are important for antagonist activity in hTAS2R31 and hTAS2R43. In human sensory trials, GIV3727 significantly reduced the bitterness associated with the two sulfonamide sweeteners, indicating that hTAS2R antagonists are active in vivo. Our results demonstrate that small molecule bitter receptor antagonists can effectively reduce the bitter taste qualities of foods, beverages, and pharmaceuticals.",

keywords = "MOLNEURO",

author = "Slack, \{Jay P.\} and Anne Brockhoff and Claudia Batram and Susann Menzel and Caroline Sonnabend and Stephan Born and Galindo, \{Maria Mercedes\} and Susann Kohl and Sophie Thalmann and Liliana Ostopovici-Halip and Simons, \{Christopher T.\} and Ioana Ungureanu and Kees Duineveld and Bologa, \{Cristian G.\} and Maik Behrens and Stefan Furrer and Oprea, \{Tudor I.\} and Wolfgang Meyerhof",

year = "2010",

month = jun,

day = "22",

doi = "10.1016/j.cub.2010.04.043",

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Slack, JP, Brockhoff, A, Batram, C, Menzel, S, Sonnabend, C, Born, S, Galindo, MM, Kohl, S, Thalmann, S, Ostopovici-Halip, L, Simons, CT, Ungureanu, I, Duineveld, K, Bologa, CG, Behrens, M, Furrer, S, Oprea, TI & Meyerhof, W 2010, 'Modulation of bitter taste perception by a small molecule hTAS2R antagonist', Current Biology, vol. 20, no. 12, pp. 1104-1109. https://doi.org/10.1016/j.cub.2010.04.043

TY - JOUR

T1 - Modulation of bitter taste perception by a small molecule hTAS2R antagonist

AU - Slack, Jay P.

AU - Brockhoff, Anne

AU - Batram, Claudia

AU - Menzel, Susann

AU - Sonnabend, Caroline

AU - Born, Stephan

AU - Galindo, Maria Mercedes

AU - Kohl, Susann

AU - Thalmann, Sophie

AU - Ostopovici-Halip, Liliana

AU - Simons, Christopher T.

AU - Ungureanu, Ioana

AU - Duineveld, Kees

AU - Bologa, Cristian G.

AU - Behrens, Maik

AU - Furrer, Stefan

AU - Oprea, Tudor I.

AU - Meyerhof, Wolfgang

PY - 2010/6/22

Y1 - 2010/6/22

N2 - Human bitter taste is mediated by the hTAS2R family of G protein-coupled receptors [1-4]. The discovery of the hTAS2Rs enables the potential to develop specific bitter receptor antagonists that could be beneficial as chemical probes to examine the role of bitter receptor function in gustatory and nongustatory tissues. In addition, they could have widespread utility in food and beverages fortified with vitamins, antioxidants, and other nutraceuticals, because many of these have unwanted bitter aftertastes. We employed a high-throughput screening approach to discover a novel bitter receptor antagonist (GIV3727) that inhibits activation of hTAS2R31 (formerly hTAS2R44) by saccharin and acesulfame K, two common artificial sweeteners. Pharmacological analyses revealed that GIV3727 likely acts as an orthosteric, insurmountable antagonist of hTAS2R31. Surprisingly, we also found that this compound could inhibit five additional hTAS2Rs, including the closely related receptor hTAS2R43. Molecular modeling and site-directed mutagenesis studies suggest that two residues in helix 7 are important for antagonist activity in hTAS2R31 and hTAS2R43. In human sensory trials, GIV3727 significantly reduced the bitterness associated with the two sulfonamide sweeteners, indicating that hTAS2R antagonists are active in vivo. Our results demonstrate that small molecule bitter receptor antagonists can effectively reduce the bitter taste qualities of foods, beverages, and pharmaceuticals.

AB - Human bitter taste is mediated by the hTAS2R family of G protein-coupled receptors [1-4]. The discovery of the hTAS2Rs enables the potential to develop specific bitter receptor antagonists that could be beneficial as chemical probes to examine the role of bitter receptor function in gustatory and nongustatory tissues. In addition, they could have widespread utility in food and beverages fortified with vitamins, antioxidants, and other nutraceuticals, because many of these have unwanted bitter aftertastes. We employed a high-throughput screening approach to discover a novel bitter receptor antagonist (GIV3727) that inhibits activation of hTAS2R31 (formerly hTAS2R44) by saccharin and acesulfame K, two common artificial sweeteners. Pharmacological analyses revealed that GIV3727 likely acts as an orthosteric, insurmountable antagonist of hTAS2R31. Surprisingly, we also found that this compound could inhibit five additional hTAS2Rs, including the closely related receptor hTAS2R43. Molecular modeling and site-directed mutagenesis studies suggest that two residues in helix 7 are important for antagonist activity in hTAS2R31 and hTAS2R43. In human sensory trials, GIV3727 significantly reduced the bitterness associated with the two sulfonamide sweeteners, indicating that hTAS2R antagonists are active in vivo. Our results demonstrate that small molecule bitter receptor antagonists can effectively reduce the bitter taste qualities of foods, beverages, and pharmaceuticals.

KW - MOLNEURO

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DO - 10.1016/j.cub.2010.04.043

M3 - Article

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SN - 0960-9822

VL - 20

SP - 1104

EP - 1109

JO - Current Biology

JF - Current Biology

IS - 12

ER -

Modulation of bitter taste perception by a small molecule hTAS2R antagonist

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