INTRODUCTION:Epilepsy is a common neurological disorder; however, its therapy is not satisfactory because a large number of patients suffer from refractory seizures and/or has a low quality of life due to antiepileptic drug (AED) side effects. Glutamate is the major excitatory neurotransmitter in the brain, AMPA receptors (AMPARs) represent a validated target for AEDs' development. Evidences support their role during seizures and neurodegeneration. Development of AMPAR ligands has led to two different branches of research, with the identification of competitive and noncompetitive antagonists.AREAS COVERED:We herein describe the architecture of AMPAR and the main structure-activity relationships of antagonists. Finally, we report the effects of AMPAR antagonists in preclinical models and clinical trials in epileptic patients. We reviewed the most relevant research in the field, focusing on research advances for the oldest AMPA antagonists and the new most promising molecules identified.EXPERT OPINION:Overall, the development of AMPAR antagonists confirms their great clinical potential; their arrival to clinical practice has been slowed down by their unfavorable pharmacokinetic profile and tolerability; however, their clinical use might be justified by their efficacy and the new drugs developed such as perampanel have been greatly ameliorated from both points of view

Introduction: Epilepsy is a common neurological disorder; however, its ther- apy is not satisfactory because a large number of patients suffer from refrac- tory seizures and/or has a low quality of life due to antiepileptic drug (AED) side effects. Glutamate is the major excitatory neurotransmitter in the brain, AMPA receptors (AMPARs) represent a validated target for AEDs’ develop- ment. Evidences support their role during seizures and neurodegeneration. Development of AMPAR ligands has led to two different branches of research, with the identification of competitive and noncompetitive antagonists. Areas covered: We herein describe the architecture of AMPAR and the main structure-activity relationships of antagonists. Finally, we report the effects of AMPAR antagonists in preclinical models and clinical trials in epileptic patients. We reviewed the most relevant research in the field, focusing on research advances for the oldest AMPA antagonists and the new most promising molecules identified.Expert opinion: Overall, the development of AMPAR antagonists confirms their great clinical potential; their arrival to clinical practice has been slowed down by their unfavorable pharmacokinetic profile and tolerability; however, their clinical use might be justified by their efficacy and the new drugs devel- oped such as perampanel have been greatly ameliorated from both points of view.

New AMPA antagonists in epilepsy

Russo Emilio;Citraro R;De Sarro Giovambattista
2012-01-01

Abstract

INTRODUCTION:Epilepsy is a common neurological disorder; however, its therapy is not satisfactory because a large number of patients suffer from refractory seizures and/or has a low quality of life due to antiepileptic drug (AED) side effects. Glutamate is the major excitatory neurotransmitter in the brain, AMPA receptors (AMPARs) represent a validated target for AEDs' development. Evidences support their role during seizures and neurodegeneration. Development of AMPAR ligands has led to two different branches of research, with the identification of competitive and noncompetitive antagonists.AREAS COVERED:We herein describe the architecture of AMPAR and the main structure-activity relationships of antagonists. Finally, we report the effects of AMPAR antagonists in preclinical models and clinical trials in epileptic patients. We reviewed the most relevant research in the field, focusing on research advances for the oldest AMPA antagonists and the new most promising molecules identified.EXPERT OPINION:Overall, the development of AMPAR antagonists confirms their great clinical potential; their arrival to clinical practice has been slowed down by their unfavorable pharmacokinetic profile and tolerability; however, their clinical use might be justified by their efficacy and the new drugs developed such as perampanel have been greatly ameliorated from both points of view
2012
Introduction: Epilepsy is a common neurological disorder; however, its ther- apy is not satisfactory because a large number of patients suffer from refrac- tory seizures and/or has a low quality of life due to antiepileptic drug (AED) side effects. Glutamate is the major excitatory neurotransmitter in the brain, AMPA receptors (AMPARs) represent a validated target for AEDs’ develop- ment. Evidences support their role during seizures and neurodegeneration. Development of AMPAR ligands has led to two different branches of research, with the identification of competitive and noncompetitive antagonists. Areas covered: We herein describe the architecture of AMPAR and the main structure-activity relationships of antagonists. Finally, we report the effects of AMPAR antagonists in preclinical models and clinical trials in epileptic patients. We reviewed the most relevant research in the field, focusing on research advances for the oldest AMPA antagonists and the new most promising molecules identified.Expert opinion: Overall, the development of AMPAR antagonists confirms their great clinical potential; their arrival to clinical practice has been slowed down by their unfavorable pharmacokinetic profile and tolerability; however, their clinical use might be justified by their efficacy and the new drugs devel- oped such as perampanel have been greatly ameliorated from both points of view.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12317/6720
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