KATP channels as ROS-dependent modulator of neurotransmitter release at the neuromuscular junctions

Neurotransmitter release requires high energy demands, making the nerve terminals metabolically fragile and susceptible to oxidative stress. ATP-sensitive potassium (KATP) channels can be an important regulator orchestrating the influence of metabolic-related signals on exocytosis. Here, the relevan...

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Veröffentlicht in:Life sciences (1973) 2022-12, Vol.310, p.121120-121120, Article 121120
Hauptverfasser: Tsentsevitsky, Andrei N., Gafurova, Chulpan R., Petrov, Alexey M.
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Sprache:eng
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Zusammenfassung:Neurotransmitter release requires high energy demands, making the nerve terminals metabolically fragile and susceptible to oxidative stress. ATP-sensitive potassium (KATP) channels can be an important regulator orchestrating the influence of metabolic-related signals on exocytosis. Here, the relevance of ROS in KATP channel-dependent control of neurotransmitter release at the frog neuromuscular junction was studied. Microelectrode recordings of end plate potentials at the distal and proximal compartments of nerve terminals as well as fluorescent techniques were used. Activation of KATP channels in the proximal region suppressed evoked and spontaneous release in a lipid raft-dependent manner. Activation of KATP channels in the distal region reduced solely evoked release which was preserved after lipid raft disruption. Chelation of ROS potentiated the effects of KATP channel activation and unmasked the effects of KATP channel blocker on evoked exocytosis. Activation or inhibition of KATP channels suppressed or enhanced the depressant action of extracellular adenosine on evoked exocytosis. This was accompanied with an increase or decrease in adenosine-induced ROS production, respectively. KATP channel-dependent modulation of adenosine action was halted by antioxidant and NADPH-oxidase inhibitor. Also, activation of KATP channels led to an increase in ROS production suppressing the negative effects of extracellular ATP on evoked release in a ROS-dependent manner. KATP channel-mediated modulation of release has specific features in distal and proximal compartments and depends on endogenous ROS levels and lipid raft integrity. Activation of KATP channels suppresses the action of extracellular adenosine and ATP on evoked release by increasing ROS production. [Display omitted] •KATP channels regulate neurotransmitter release in a lipid raft-dependent manner.•ROS attenuate the influence of KATP channels and adenosine on neurotransmitter release.•Activation of KATP channels and adenosine receptors increases ROS production.•KATP channel activation attenuates adenosine-induced depression of evoked exocytosis.•This action of KATP channels depends on ROS production by NADPH-oxidase.
ISSN:0024-3205
1879-0631
DOI:10.1016/j.lfs.2022.121120