Development of Non-GAT1-Selective Inhibitors: Challenges and Achievements

Maria Damgaard; Anne Stæhr Haugaard; Stefanie Kickinger; Anas Al-Khawaja; Maria E K Lie; Gerhard F Ecker; Rasmus Prætorius Clausen; Bente Frølund

doi:10.1007/978-3-319-55769-4_16

Development of Non-GAT1-Selective Inhibitors: Challenges and Achievements

Maria Damgaard, Anne Stæhr Haugaard, Stefanie Kickinger, Anas Al-Khawaja, Maria E K Lie, Gerhard F Ecker, Rasmus Prætorius Clausen, Bente Frølund

12 Citations (Scopus)

Abstract

γ-Aminobutyric acid (GABA) neurotransmission is terminated by the GABA transporters (GATs) via uptake of GABA into neurons and surrounding glial cells. Four different transporters have been identified: GAT1, GAT2, GAT3, and the betaine/GABA transporter 1 (BGT1). The GAT1 subtype is the most explored transporter due to its high abundance in the brain and the existence of selective and potent GAT1 inhibitors. Consequently, less is known about the role and therapeutic potential of the non-GAT1 subtypes. Emerging pharmacological evidence suggests that some of these transporters pose interesting targets in several brain disorders. Pharmacological non-GAT1-selective tool compounds are important to further investigate the involvement of GATs in different pathological conditions. Extensive medicinal chemistry efforts have been put into the development of subtype-selective inhibitors, but truly selective and potent inhibitors of non-GAT1 subtypes are still limited. This review covers the advances within the medicinal chemistry area and the structural basis for obtaining non-GAT1-selective inhibitors.

Original language	English
Title of host publication	Advances in Neurobiology
Number of pages	18
Volume	16
Publisher	Springer
Publication date	2017
Pages	315-332
ISBN (Electronic)	978-3-319-55767-0
DOIs	https://doi.org/10.1007/978-3-319-55769-4_16
Publication status	Published - 2017

Series	Advances in Neurobiology
ISSN	2190-5215

Keywords

Journal Article

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10.1007/978-3-319-55769-4_16

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abstract = "γ-Aminobutyric acid (GABA) neurotransmission is terminated by the GABA transporters (GATs) via uptake of GABA into neurons and surrounding glial cells. Four different transporters have been identified: GAT1, GAT2, GAT3, and the betaine/GABA transporter 1 (BGT1). The GAT1 subtype is the most explored transporter due to its high abundance in the brain and the existence of selective and potent GAT1 inhibitors. Consequently, less is known about the role and therapeutic potential of the non-GAT1 subtypes. Emerging pharmacological evidence suggests that some of these transporters pose interesting targets in several brain disorders. Pharmacological non-GAT1-selective tool compounds are important to further investigate the involvement of GATs in different pathological conditions. Extensive medicinal chemistry efforts have been put into the development of subtype-selective inhibitors, but truly selective and potent inhibitors of non-GAT1 subtypes are still limited. This review covers the advances within the medicinal chemistry area and the structural basis for obtaining non-GAT1-selective inhibitors.",

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AU - Damgaard, Maria

AU - Haugaard, Anne Stæhr

AU - Kickinger, Stefanie

AU - Al-Khawaja, Anas

AU - Lie, Maria E K

AU - Ecker, Gerhard F

AU - Clausen, Rasmus Prætorius

AU - Frølund, Bente

PY - 2017

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AB - γ-Aminobutyric acid (GABA) neurotransmission is terminated by the GABA transporters (GATs) via uptake of GABA into neurons and surrounding glial cells. Four different transporters have been identified: GAT1, GAT2, GAT3, and the betaine/GABA transporter 1 (BGT1). The GAT1 subtype is the most explored transporter due to its high abundance in the brain and the existence of selective and potent GAT1 inhibitors. Consequently, less is known about the role and therapeutic potential of the non-GAT1 subtypes. Emerging pharmacological evidence suggests that some of these transporters pose interesting targets in several brain disorders. Pharmacological non-GAT1-selective tool compounds are important to further investigate the involvement of GATs in different pathological conditions. Extensive medicinal chemistry efforts have been put into the development of subtype-selective inhibitors, but truly selective and potent inhibitors of non-GAT1 subtypes are still limited. This review covers the advances within the medicinal chemistry area and the structural basis for obtaining non-GAT1-selective inhibitors.

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BT - Advances in Neurobiology

PB - Springer

ER -

Development of Non-GAT1-Selective Inhibitors: Challenges and Achievements

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