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W2996410010 abstract "Abstract Changes in extracellular potassium ([K + ] e ) modulate neuronal networks via changes in membrane potential, voltage-gated channel activity and alteration of transmission at the synapse. Given the limited extracellular space in the CNS, potassium clearance is crucial. As activity-induced potassium transients are rapidly managed by astrocytic Kir4.1 and astrocyte-specific Na + /K + -ATPase (NKA), any neurotransmitter/neuromodulator that can regulate their function may have indirect influence on network activity. Neuromodulators differentially affect cortical/thalamic networks to align sensory processing with differing behavioral states. Given serotonin (5HT), norepinephrine (NE), and acetylcholine (ACh) differentially affect spike frequency adaptation and signal fidelity (“signal-to-noise”) in somatosensory cortex, we hypothesize that [K + ] e may be differentially regulated by the different neuromodulators to exert their individual effects on network function. This study aimed to compare effects of individually applied 5HT, NE, and ACh on regulating [K + ] e in connection to effects on cortical evoked response amplitude and adaptation in male mice. Using extracellular field and K + ion-selective recordings of somatosensory stimulation, we found that differential effects of 5HT, NE, and ACh on [K + ] e regulation mirrored differential effects on amplitude and adaptation. 5HT effects on transient K + recovery, adaptation and field post-synaptic potential amplitude were disrupted by barium (200 µM), whereas NE and ACh effects were disrupted by ouabain (1 µM) or iodoacetate (100 µM). Considering the impact [K + ] e can have on many network functions; it seems highly efficient that neuromodulators regulate [K + ] e to exert their many effects. This study provides functional significance for astrocyte-mediated buffering of [K + ] e in neuromodulator-mediated shaping of cortical network activity. Significance statement We demonstrate that the neuromodulators serotonin, norepinephrine, and acetylcholine all have distinct effects on astrocyte-mediated extracellular potassium regulation and that these differential actions are associated with the different effects of the neuromodulators on cortical networks. By affecting astrocytic potassium regulation, long-range neuromodulatory networks can rapidly and efficiently affect broad areas of the brain. Given that neuromodulatory networks are at the core of our behavioral state and determine how we interact with our environment, these studies highlight the importance of basic astrocyte function in general cognition and psychiatric disorders." @default.
W2996410010 created "2019-12-26" @default.
W2996410010 creator A5017992417 @default.
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W2996410010 date "2019-12-15" @default.
W2996410010 modified "2023-10-16" @default.
W2996410010 title "Serotonin, norepinephrine and acetylcholine differentially affect astrocytic potassium clearance to modulate somatosensory signaling in male mice" @default.
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W2996410010 cites W1815876215 @default.
W2996410010 cites W1964470916 @default.
W2996410010 cites W1966661121 @default.
W2996410010 cites W1972491597 @default.
W2996410010 cites W1975727393 @default.
W2996410010 cites W1978985709 @default.
W2996410010 cites W1981264895 @default.
W2996410010 cites W1986995457 @default.
W2996410010 cites W1993802774 @default.
W2996410010 cites W2005886801 @default.
W2996410010 cites W2009771635 @default.
W2996410010 cites W2013029034 @default.
W2996410010 cites W2018689203 @default.
W2996410010 cites W2019067219 @default.
W2996410010 cites W2022995207 @default.
W2996410010 cites W2023088704 @default.
W2996410010 cites W2023137071 @default.
W2996410010 cites W2028036419 @default.
W2996410010 cites W2028311911 @default.
W2996410010 cites W2034441569 @default.
W2996410010 cites W2036592327 @default.
W2996410010 cites W2038112426 @default.
W2996410010 cites W2042011830 @default.
W2996410010 cites W2043717608 @default.
W2996410010 cites W2044687387 @default.
W2996410010 cites W2048713890 @default.
W2996410010 cites W2054275187 @default.
W2996410010 cites W2054434581 @default.
W2996410010 cites W2055493228 @default.
W2996410010 cites W2067988047 @default.
W2996410010 cites W2070081929 @default.
W2996410010 cites W2070408678 @default.
W2996410010 cites W2073740788 @default.
W2996410010 cites W2092959307 @default.
W2996410010 cites W2093014391 @default.
W2996410010 cites W2093166155 @default.
W2996410010 cites W2094188444 @default.
W2996410010 cites W2094240884 @default.
W2996410010 cites W2102769301 @default.
W2996410010 cites W2110615319 @default.
W2996410010 cites W2112927743 @default.
W2996410010 cites W2116308842 @default.
W2996410010 cites W2117010174 @default.
W2996410010 cites W2118661818 @default.
W2996410010 cites W2129567809 @default.
W2996410010 cites W2134084670 @default.
W2996410010 cites W2137163292 @default.
W2996410010 cites W2140182398 @default.
W2996410010 cites W2148611607 @default.
W2996410010 cites W2152460583 @default.
W2996410010 cites W2157527374 @default.
W2996410010 cites W2191292005 @default.
W2996410010 cites W2214358211 @default.
W2996410010 cites W2286021295 @default.
W2996410010 cites W2312098387 @default.
W2996410010 cites W2328019172 @default.
W2996410010 cites W2336200579 @default.
W2996410010 cites W2343186916 @default.
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W2996410010 cites W2742893892 @default.
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W2996410010 cites W2791106909 @default.
W2996410010 cites W2890012531 @default.
W2996410010 cites W2910725102 @default.
W2996410010 cites W2964464716 @default.
W2996410010 doi "https://doi.org/10.1101/2019.12.14.876458" @default.
W2996410010 hasPublicationYear "2019" @default.
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