Journal
CHANNELS
Volume 15, Issue 1, Pages 666-679Publisher
TAYLOR & FRANCIS INC
DOI: 10.1080/19336950.2021.2002594
Keywords
Nitric oxide; excitability; ion channels; post-translational modification; neuron
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Funding
- University of Nottingham
- La Trobe University
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Nitric oxide signaling in the brain exerts its effects on ion channels through various pathways, leading to functional regulation under physiological conditions or dysfunction in diseases. The complexity of this regulation presents challenges in understanding the role of NO signaling in physiology and pathology.
Nitric oxide (NO) signaling in the brain provides a wide range of functional properties in response to neuronal activity. NO exerts its effects through different signaling pathways, namely, through the canonical soluble guanylyl cyclase-mediated cGMP production route and via post-translational protein modifications. The latter pathways comprise cysteine S-nitrosylation and 3-nitrotyrosination of distinct tyrosine residues. Many ion channels are targeted by one or more of these signaling routes, which leads to their functional regulation under physiological conditions or facilities their dysfunction leading to channelopathies in many pathologies. The resulting alterations in ion channel function changes neuronal excitability, synaptic transmission, and action potential propagation. Transient and activity-dependent NO production mediates reversible ion channel modifications via cGMP and S-nitrosylation signaling, whereas more pronounced and longer-term NO production during conditions of elevated oxidative stress leads to increasingly cumulative and irreversible protein 3-nitrotyrosination. The complexity of this regulation and vast variety of target ion channels and their associated functional alterations presents a challenging task in assessing and understanding the role of NO signaling in physiology and disease.
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