Litcius/Paper detail

Glutamate acts on acid-sensing ion channels to worsen ischaemic brain injury

Ke Lai, Iva Pritišanac, Zhen-Qi Liu, Han‐Wei Liu, Li-Na Gong, Mingxian Li, Jian‐Fei Lu, Xin Qi, Tian‐Le Xu, Julie D. Forman‐Kay, Haibo Shi, Lu‐Yang Wang, Shankai Yin

2024Nature63 citationsDOIOpen Access PDF

Abstract

Abstract Glutamate is traditionally viewed as the first messenger to activate NMDAR ( N -methyl- d -aspartate receptor)-dependent cell death pathways in stroke 1,2 , but unsuccessful clinical trials with NMDAR antagonists implicate the engagement of other mechanisms 3–7 . Here we show that glutamate and its structural analogues, including NMDAR antagonist l -AP5 (also known as APV), robustly potentiate currents mediated by acid-sensing ion channels (ASICs) associated with acidosis-induced neurotoxicity in stroke 4 . Glutamate increases the affinity of ASICs for protons and their open probability, aggravating ischaemic neurotoxicity in both in vitro and in vivo models. Site-directed mutagenesis, structure-based modelling and functional assays reveal a bona fide glutamate-binding cavity in the extracellular domain of ASIC1a. Computational drug screening identified a small molecule, LK-2, that binds to this cavity and abolishes glutamate-dependent potentiation of ASIC currents but spares NMDARs. LK-2 reduces the infarct volume and improves sensorimotor recovery in a mouse model of ischaemic stroke, reminiscent of that seen in mice with Asic1a knockout or knockout of other cation channels 4–7 . We conclude that glutamate functions as a positive allosteric modulator for ASICs to exacerbate neurotoxicity, and preferential targeting of the glutamate-binding site on ASICs over that on NMDARs may be strategized for developing stroke therapeutics lacking the psychotic side effects of NMDAR antagonists.

Topics & Concepts

Glutamate receptorChemistryNeuroscienceIon channelBiophysicsBiochemistryBiologyReceptorIon Transport and Channel RegulationIon channel regulation and functionNeuroscience and Neuropharmacology Research
Glutamate acts on acid-sensing ion channels to worsen ischaemic brain injury | Litcius