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Literature DB >> 25585135

Biophysical properties of acid-sensing ion channels (ASICs).

Abstract

Acid-sensing ion channels (ASICs) are ligand-gated ion channels that are exquisitely sensitive to extracellular protons and can sense transient as well as sustained acidification. In this review, we will discuss activation and desensitization of ASICs by protons. We show that a linear reaction scheme can reproduce the basic electrophysiological properties of ASICs, including steady-state desensitization. Moreover, we will discuss how a desensitizing receptor can sense sustained acidosis and what we know about the putative proton sensor. We will briefly discuss modulation of proton gating by neuropeptides and small positively charged ligands. Finally, we will review the pore properties of ASICs and their relation to the recently reported crystal structure of the open ASIC pore. This article is part of the Special Issue entitled 'Acid-Sensing Ion Channels in the Nervous System'.

Entities: Chemical

Keywords: Desensitization; ENaC; Gating; Ion pore; Proton; pH

Mesh：

Substances：

Year: 2015 PMID： 25585135 DOI： 10.1016/j.neuropharm.2014.12.016

Source DB: PubMed Journal: Neuropharmacology ISSN： 0028-3908 Impact factor: 5.250

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Cited

80 in total

Review 1. Insights into the channel gating of P2X receptors from structures, dynamics and small molecules.

Authors: Jin Wang; Ye Yu
Journal: Acta Pharmacol Sin Date: 2016-01 Impact factor: 6.150

2. Kinetic analysis of ASIC1a delineates conformational signaling from proton-sensing domains to the channel gate.

Authors: Sabrina Vullo; Nicolas Ambrosio; Jan P Kucera; Olivier Bignucolo; Stephan Kellenberger
Journal: Elife Date: 2021-03-17 Impact factor: 8.140

3. Opioid-Mediated Modulation of Acid-Sensing Ion Channel Currents in Adult Rat Sensory Neurons.

Authors: Malgorzata Zaremba; Victor Ruiz-Velasco
Journal: Mol Pharmacol Date: 2019-02-26 Impact factor: 4.436

4. Acid-Sensing Ion Channels Activated by Evoked Released Protons Modulate Synaptic Transmission at the Mouse Calyx of Held Synapse.

Authors: Carlota González-Inchauspe; Francisco J Urbano; Mariano N Di Guilmi; Osvaldo D Uchitel
Journal: J Neurosci Date: 2017-02-03 Impact factor: 6.167

5. Identification of a cono-RFamide from the venom of Conus textile that targets ASIC3 and enhances muscle pain.

Authors: Catharina Reimers; Cheng-Han Lee; Hubert Kalbacher; Yuemin Tian; Chih-Hsien Hung; Axel Schmidt; Lea Prokop; Silke Kauferstein; Dietrich Mebs; Chih-Cheng Chen; Stefan Gründer
Journal: Proc Natl Acad Sci U S A Date: 2017-04-10 Impact factor: 11.205

Biophysical properties of acid-sensing ion channels (ASICs).

Review 1. Insights into the channel gating of P2X receptors from structures, dynamics and small molecules.

2. Kinetic analysis of ASIC1a delineates conformational signaling from proton-sensing domains to the channel gate.

3. Opioid-Mediated Modulation of Acid-Sensing Ion Channel Currents in Adult Rat Sensory Neurons.

4. Acid-Sensing Ion Channels Activated by Evoked Released Protons Modulate Synaptic Transmission at the Mouse Calyx of Held Synapse.

5. Identification of a cono-RFamide from the venom of Conus textile that targets ASIC3 and enhances muscle pain.

6. Deactivation kinetics of acid-sensing ion channel 1a are strongly pH-sensitive.

7. Acid-sensing ion channels emerged over 600 Mya and are conserved throughout the deuterostomes.

8. Proton-independent activation of acid-sensing ion channel 3 by an alkaloid, lindoldhamine, from Laurus nobilis.

Review 9. Monoclonal antibody as an emerging therapy for acute ischemic stroke.

10. Alkaloid Lindoldhamine Inhibits Acid-Sensing Ion Channel 1a and Reveals Anti-Inflammatory Properties.