Modulation of the H-Bond Basicity of Functional Groups by α-Fluorine-Containing Functions and its Implications for Lipophilicity and Bioisosterism

Yossi Zafrani; Galit Parvari; Dafna Amir; Lee Ghindes-Azaria; Shlomi Elias; Alexander Pevzner; Gil Fridkin; Anat Berliner; Eytan Gershonov; Yoav Eichen; Sigal Saphier; Shahaf Katalan

doi:10.1021/acs.jmedchem.0c01868

Modulation of the H-Bond Basicity of Functional Groups by α-Fluorine-Containing Functions and its Implications for Lipophilicity and Bioisosterism

Yossi Zafrani, Galit Parvari, Dafna Amir, Lee Ghindes-Azaria, Shlomi Elias, Alexander Pevzner, Gil Fridkin, Anat Berliner, Eytan Gershonov, Yoav Eichen, Sigal Saphier, Shahaf Katalan

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41 Scopus citations

Abstract

Modulation of the H-bond basicity (pKHB) of various functional groups (FGs) by attaching fluorine functions and its impact on lipophilicity and bioisosterism considerations are described. In general, H/F replacement at the α-position to H-bond acceptors leads to a decrease of the pKHB value, resulting, in many cases, in a dramatic increase in the compounds' lipophilicity (log Po/w). In the case of α-CF2H, we found that these properties may also be affected by intramolecular H-bonds between CF2H and the FG. A computational study of ketone and sulfone series revealed that α-fluorination can significantly affect overall polarity, charge distribution, and conformational preference. The unique case of α-di- and trifluoromethyl ketones, which exist in octanol/water phases as ketone, hemiketal, and gem-diol forms, in equilibrium, prevents direct log Po/w determination by conventional methods, and therefore, the specific log Po/w values of these species were determined directly, for the first time, using Linclau's 19F NMR-based method.

Original language	English
Pages (from-to)	4516-4531
Number of pages	16
Journal	Journal of Medicinal Chemistry
Volume	64
Issue number	8
DOIs	https://doi.org/10.1021/acs.jmedchem.0c01868
State	Published - 22 Apr 2021
Externally published	Yes

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© 2021 American Chemical Society.

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Zafrani, Y., Parvari, G., Amir, D., Ghindes-Azaria, L., Elias, S., Pevzner, A., Fridkin, G., Berliner, A., Gershonov, E., Eichen, Y., Saphier, S., & Katalan, S. (2021). Modulation of the H-Bond Basicity of Functional Groups by α-Fluorine-Containing Functions and its Implications for Lipophilicity and Bioisosterism. Journal of Medicinal Chemistry, 64(8), 4516-4531. https://doi.org/10.1021/acs.jmedchem.0c01868

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title = "Modulation of the H-Bond Basicity of Functional Groups by α-Fluorine-Containing Functions and its Implications for Lipophilicity and Bioisosterism",

abstract = "Modulation of the H-bond basicity (pKHB) of various functional groups (FGs) by attaching fluorine functions and its impact on lipophilicity and bioisosterism considerations are described. In general, H/F replacement at the α-position to H-bond acceptors leads to a decrease of the pKHB value, resulting, in many cases, in a dramatic increase in the compounds' lipophilicity (log Po/w). In the case of α-CF2H, we found that these properties may also be affected by intramolecular H-bonds between CF2H and the FG. A computational study of ketone and sulfone series revealed that α-fluorination can significantly affect overall polarity, charge distribution, and conformational preference. The unique case of α-di- and trifluoromethyl ketones, which exist in octanol/water phases as ketone, hemiketal, and gem-diol forms, in equilibrium, prevents direct log Po/w determination by conventional methods, and therefore, the specific log Po/w values of these species were determined directly, for the first time, using Linclau's 19F NMR-based method.",

author = "Yossi Zafrani and Galit Parvari and Dafna Amir and Lee Ghindes-Azaria and Shlomi Elias and Alexander Pevzner and Gil Fridkin and Anat Berliner and Eytan Gershonov and Yoav Eichen and Sigal Saphier and Shahaf Katalan",

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doi = "10.1021/acs.jmedchem.0c01868",

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Zafrani, Y, Parvari, G, Amir, D, Ghindes-Azaria, L, Elias, S, Pevzner, A, Fridkin, G, Berliner, A, Gershonov, E, Eichen, Y, Saphier, S & Katalan, S 2021, 'Modulation of the H-Bond Basicity of Functional Groups by α-Fluorine-Containing Functions and its Implications for Lipophilicity and Bioisosterism', Journal of Medicinal Chemistry, vol. 64, no. 8, pp. 4516-4531. https://doi.org/10.1021/acs.jmedchem.0c01868

TY - JOUR

T1 - Modulation of the H-Bond Basicity of Functional Groups by α-Fluorine-Containing Functions and its Implications for Lipophilicity and Bioisosterism

AU - Zafrani, Yossi

AU - Parvari, Galit

AU - Amir, Dafna

AU - Ghindes-Azaria, Lee

AU - Elias, Shlomi

AU - Pevzner, Alexander

AU - Fridkin, Gil

AU - Berliner, Anat

AU - Gershonov, Eytan

AU - Eichen, Yoav

AU - Saphier, Sigal

AU - Katalan, Shahaf

PY - 2021/4/22

Y1 - 2021/4/22

N2 - Modulation of the H-bond basicity (pKHB) of various functional groups (FGs) by attaching fluorine functions and its impact on lipophilicity and bioisosterism considerations are described. In general, H/F replacement at the α-position to H-bond acceptors leads to a decrease of the pKHB value, resulting, in many cases, in a dramatic increase in the compounds' lipophilicity (log Po/w). In the case of α-CF2H, we found that these properties may also be affected by intramolecular H-bonds between CF2H and the FG. A computational study of ketone and sulfone series revealed that α-fluorination can significantly affect overall polarity, charge distribution, and conformational preference. The unique case of α-di- and trifluoromethyl ketones, which exist in octanol/water phases as ketone, hemiketal, and gem-diol forms, in equilibrium, prevents direct log Po/w determination by conventional methods, and therefore, the specific log Po/w values of these species were determined directly, for the first time, using Linclau's 19F NMR-based method.

AB - Modulation of the H-bond basicity (pKHB) of various functional groups (FGs) by attaching fluorine functions and its impact on lipophilicity and bioisosterism considerations are described. In general, H/F replacement at the α-position to H-bond acceptors leads to a decrease of the pKHB value, resulting, in many cases, in a dramatic increase in the compounds' lipophilicity (log Po/w). In the case of α-CF2H, we found that these properties may also be affected by intramolecular H-bonds between CF2H and the FG. A computational study of ketone and sulfone series revealed that α-fluorination can significantly affect overall polarity, charge distribution, and conformational preference. The unique case of α-di- and trifluoromethyl ketones, which exist in octanol/water phases as ketone, hemiketal, and gem-diol forms, in equilibrium, prevents direct log Po/w determination by conventional methods, and therefore, the specific log Po/w values of these species were determined directly, for the first time, using Linclau's 19F NMR-based method.

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Modulation of the H-Bond Basicity of Functional Groups by α-Fluorine-Containing Functions and its Implications for Lipophilicity and Bioisosterism

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