Probing for improved potency and in vivo bioavailability of excitatory amino acid transporter subtype 1 inhibitors UCPH-101 and UCPH-102: Design, synthesis and pharmacological evaluation of substituted 7-biphenyl analogs

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Standard

Probing for improved potency and in vivo bioavailability of excitatory amino acid transporter subtype 1 inhibitors UCPH-101 and UCPH-102: Design, synthesis and pharmacological evaluation of substituted 7-biphenyl analogs. / Erichsen, Mette Norman; Hansen, J; Artacho Ruiz, Jose; Demmer, Charles Sylvain; Abrahamsen, Bjarke; Bastlund, Jesper F; Bundgaard, C; Jensen, Anders A.; Bunch, Lennart.

In: Neurochemical Research, Vol. 39, No. 10, 2014, p. 1964-1979 .

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Erichsen, MN, Hansen, J, Artacho Ruiz, J, Demmer, CS, Abrahamsen, B, Bastlund, JF, Bundgaard, C, Jensen, AA & Bunch, L 2014, 'Probing for improved potency and in vivo bioavailability of excitatory amino acid transporter subtype 1 inhibitors UCPH-101 and UCPH-102: Design, synthesis and pharmacological evaluation of substituted 7-biphenyl analogs', Neurochemical Research, vol. 39, no. 10, pp. 1964-1979 . https://doi.org/10.1007/s11064-014-1264-8

APA

Erichsen, M. N., Hansen, J., Artacho Ruiz, J., Demmer, C. S., Abrahamsen, B., Bastlund, J. F., Bundgaard, C., Jensen, A. A., & Bunch, L. (2014). Probing for improved potency and in vivo bioavailability of excitatory amino acid transporter subtype 1 inhibitors UCPH-101 and UCPH-102: Design, synthesis and pharmacological evaluation of substituted 7-biphenyl analogs. Neurochemical Research, 39(10), 1964-1979 . https://doi.org/10.1007/s11064-014-1264-8

Vancouver

Erichsen MN, Hansen J, Artacho Ruiz J, Demmer CS, Abrahamsen B, Bastlund JF et al. Probing for improved potency and in vivo bioavailability of excitatory amino acid transporter subtype 1 inhibitors UCPH-101 and UCPH-102: Design, synthesis and pharmacological evaluation of substituted 7-biphenyl analogs. Neurochemical Research. 2014;39(10):1964-1979 . https://doi.org/10.1007/s11064-014-1264-8

Author

Erichsen, Mette Norman ; Hansen, J ; Artacho Ruiz, Jose ; Demmer, Charles Sylvain ; Abrahamsen, Bjarke ; Bastlund, Jesper F ; Bundgaard, C ; Jensen, Anders A. ; Bunch, Lennart. / Probing for improved potency and in vivo bioavailability of excitatory amino acid transporter subtype 1 inhibitors UCPH-101 and UCPH-102: Design, synthesis and pharmacological evaluation of substituted 7-biphenyl analogs. In: Neurochemical Research. 2014 ; Vol. 39, No. 10. pp. 1964-1979 .

Bibtex

@article{252ec0952e5d446ebcf79ee366445c70,
title = "Probing for improved potency and in vivo bioavailability of excitatory amino acid transporter subtype 1 inhibitors UCPH-101 and UCPH-102: Design, synthesis and pharmacological evaluation of substituted 7-biphenyl analogs",
abstract = "Uptake of the major excitatory neurotransmitter in the CNS, (S)-glutamate, is mediated by a family of excitatory amino acid transporters (EAAT). Previously we have explored the structure-activity relationship (SAR) of a series of EAAT1 selective inhibitors, leading to the development of the potent inhibitors UCPH-101 and UCPH-102. In the present study, we set out to improve the solubility properties of these EAAT1 inhibitors with the objective to develop analogs more suited as pharmacological tools for in vivo studies of EAAT1 in terms of their bioavailability. A total of 23 novel UCPH-101/102 analogs were designed, synthesized and characterized pharmacologically at EAAT1-3 in a [(3)H]-D-aspartate uptake assay. Most notably, the potent EAAT1 inhibition displayed of UCPH-101 and UCPH-102 was retained in analog 1d in which the napht-1-yl group in the 7-position of UCPH-102 has been replaced by an o-biphenyl moiety. In contrast, EAAT1 activity was dramatically compromised in analogs 1e and 1f comprising m- and p-biphenyl groups as 7-substituents, respectively. Analog 1d displayed low bioavailability after oral administration in rats, and this problem was addressed by the synthesis of a series of analogs with different chloro, fluoro, methoxy, triflouromethyl and carboxy substitution patterns at the o-biphenyl group of 1d (1h-1s) and m- and p-pyridine analogs of 1d (1t and 1v). Unfortunately, all of the modifications resulted in substantial decreased EAAT1 inhibitory activity, which supports the notion of a very lipophilic binding pocket in EAAT1 for the aromatic 7-substituent in these ligands. In conclusion, while we have not succeeded in developing UCPH-101/102 analogs possessing improved bioavailability properties, this study does offer interesting SAR information about this inhibitor class, and analog 1d seems to be an interesting lead for future SAR studies with focus on the development of more potent EAAT1 ",
author = "Erichsen, {Mette Norman} and J Hansen and {Artacho Ruiz}, Jose and Demmer, {Charles Sylvain} and Bjarke Abrahamsen and Bastlund, {Jesper F} and C Bundgaard and Jensen, {Anders A.} and Lennart Bunch",
year = "2014",
doi = "10.1007/s11064-014-1264-8",
language = "English",
volume = "39",
pages = "1964--1979 ",
journal = "Neurochemical Research",
issn = "0364-3190",
publisher = "Springer",
number = "10",

}

RIS

TY - JOUR

T1 - Probing for improved potency and in vivo bioavailability of excitatory amino acid transporter subtype 1 inhibitors UCPH-101 and UCPH-102: Design, synthesis and pharmacological evaluation of substituted 7-biphenyl analogs

AU - Erichsen, Mette Norman

AU - Hansen, J

AU - Artacho Ruiz, Jose

AU - Demmer, Charles Sylvain

AU - Abrahamsen, Bjarke

AU - Bastlund, Jesper F

AU - Bundgaard, C

AU - Jensen, Anders A.

AU - Bunch, Lennart

PY - 2014

Y1 - 2014

N2 - Uptake of the major excitatory neurotransmitter in the CNS, (S)-glutamate, is mediated by a family of excitatory amino acid transporters (EAAT). Previously we have explored the structure-activity relationship (SAR) of a series of EAAT1 selective inhibitors, leading to the development of the potent inhibitors UCPH-101 and UCPH-102. In the present study, we set out to improve the solubility properties of these EAAT1 inhibitors with the objective to develop analogs more suited as pharmacological tools for in vivo studies of EAAT1 in terms of their bioavailability. A total of 23 novel UCPH-101/102 analogs were designed, synthesized and characterized pharmacologically at EAAT1-3 in a [(3)H]-D-aspartate uptake assay. Most notably, the potent EAAT1 inhibition displayed of UCPH-101 and UCPH-102 was retained in analog 1d in which the napht-1-yl group in the 7-position of UCPH-102 has been replaced by an o-biphenyl moiety. In contrast, EAAT1 activity was dramatically compromised in analogs 1e and 1f comprising m- and p-biphenyl groups as 7-substituents, respectively. Analog 1d displayed low bioavailability after oral administration in rats, and this problem was addressed by the synthesis of a series of analogs with different chloro, fluoro, methoxy, triflouromethyl and carboxy substitution patterns at the o-biphenyl group of 1d (1h-1s) and m- and p-pyridine analogs of 1d (1t and 1v). Unfortunately, all of the modifications resulted in substantial decreased EAAT1 inhibitory activity, which supports the notion of a very lipophilic binding pocket in EAAT1 for the aromatic 7-substituent in these ligands. In conclusion, while we have not succeeded in developing UCPH-101/102 analogs possessing improved bioavailability properties, this study does offer interesting SAR information about this inhibitor class, and analog 1d seems to be an interesting lead for future SAR studies with focus on the development of more potent EAAT1

AB - Uptake of the major excitatory neurotransmitter in the CNS, (S)-glutamate, is mediated by a family of excitatory amino acid transporters (EAAT). Previously we have explored the structure-activity relationship (SAR) of a series of EAAT1 selective inhibitors, leading to the development of the potent inhibitors UCPH-101 and UCPH-102. In the present study, we set out to improve the solubility properties of these EAAT1 inhibitors with the objective to develop analogs more suited as pharmacological tools for in vivo studies of EAAT1 in terms of their bioavailability. A total of 23 novel UCPH-101/102 analogs were designed, synthesized and characterized pharmacologically at EAAT1-3 in a [(3)H]-D-aspartate uptake assay. Most notably, the potent EAAT1 inhibition displayed of UCPH-101 and UCPH-102 was retained in analog 1d in which the napht-1-yl group in the 7-position of UCPH-102 has been replaced by an o-biphenyl moiety. In contrast, EAAT1 activity was dramatically compromised in analogs 1e and 1f comprising m- and p-biphenyl groups as 7-substituents, respectively. Analog 1d displayed low bioavailability after oral administration in rats, and this problem was addressed by the synthesis of a series of analogs with different chloro, fluoro, methoxy, triflouromethyl and carboxy substitution patterns at the o-biphenyl group of 1d (1h-1s) and m- and p-pyridine analogs of 1d (1t and 1v). Unfortunately, all of the modifications resulted in substantial decreased EAAT1 inhibitory activity, which supports the notion of a very lipophilic binding pocket in EAAT1 for the aromatic 7-substituent in these ligands. In conclusion, while we have not succeeded in developing UCPH-101/102 analogs possessing improved bioavailability properties, this study does offer interesting SAR information about this inhibitor class, and analog 1d seems to be an interesting lead for future SAR studies with focus on the development of more potent EAAT1

U2 - 10.1007/s11064-014-1264-8

DO - 10.1007/s11064-014-1264-8

M3 - Journal article

C2 - 24682739

VL - 39

SP - 1964

EP - 1979

JO - Neurochemical Research

JF - Neurochemical Research

SN - 0364-3190

IS - 10

ER -

ID: 98975344