Journal ArticleDOI
A Ca-dependent Cl− conductance in cultured mouse spinal neurones
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TLDR
It is reported here that many cultured mouse spinal neurones exhibit a voltage-activated chloride conductance that lasts for seconds and is dependent on extracellular calcium, thus complementing the functional roles of Ca-dependent K+ conductances.Abstract:
Long-lasting conductance changes triggered either by brief (millisecond) electrical stimuli and/or entry of calcium ions have been observed in a variety of excitable tissues1–4. The electrical consequences of these events depend on the ion conductance affected and on the ion concentration gradient across the membrane, while the long-lasting nature of the change sustains the cell at either sub- or supra-threshold levels for activation of regenerative action potentials. We report here that many cultured mouse spinal neurones exhibit a voltage-activated chloride conductance that lasts for seconds and is dependent on extracellular calcium, [Ca2+]0. This conductance may repolarize and stabilize the cell at a level subthreshold for generating action potentials, thus complementing the functional roles of Ca-dependent K+ conductances5–8.read more
Citations
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The intrinsic electrophysiological properties of mammalian neurons: insights into central nervous system function.
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The physiology of excitatory amino acids in the vertebrate central nervous system.
Mark L. Mayer,Gary L. Westbrook +1 more
TL;DR: In this article, the authors propose a method to solve the problem of unstructured data.Abbreviations 198 and 198.3.1.5.1].
Journal ArticleDOI
The use of Xenopus oocytes for the study of ion channels.
TL;DR: Oocytes of the African frog Xenopus laevis have been exploited for the study of numerous aspects of ion channel function and regulation, such as the properties of several endogenous voltage-dependent channels and the involvement of second messengers in mediation of neurotransmitter-evoked membrane responses.
Journal ArticleDOI
Calcium-activated chloride channels
TL;DR: The physiological roles of CaCCs, their mechanisms of regulation and activation, and the mechanisms of anion selectivity and conduction are discussed.
Journal ArticleDOI
GABAB-receptor-activated K+ current in voltage-clamped CA3 pyramidal cells in hippocampal cultures
Beat H. Gähwiler,D.A. Brown +1 more
TL;DR: It is concluded that the primary effect of GABAB-receptor activation in these neurones is to increase K+ permeability rather than to reduce Ca2- permeability.
References
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Journal ArticleDOI
Inward current channels activated by intracellular Ca in cultured cardiac cells.
TL;DR: Researchers report here studies on single channel currents recorded from heart muscle cells, in which they have found a channel, abundant in cardiac membrane, which does not seem to belong in any of the familiar categories.
Journal ArticleDOI
A transient calcium‐dependent chloride current in the immature Xenopus oocyte.
TL;DR: Ionic currents were studied in immature full‐grown Xenopus oocytes using the two‐micro‐electrode voltage‐clamp technique and the outward peak in records of total membrane current represented the contribution of a transient outward current carried by Cl ions which was dependent on the entry of external Ca.
Journal ArticleDOI
Mouse spinal cord in cell culture. I. Morphology and intrinsic neuronal electrophysiologic properties.
TL;DR: Reliable methods for establishing fetal mouse spinal cord and dorsal root ganglion cells in long term (greater than 1 mo) dissociated cell cultures are described and current-voltage relationships and linear electrotonic properties of the neurons are described.
Journal ArticleDOI
Single Ca2+-activated nonselective cation channels in neuroblastoma.
TL;DR: This work has studied the response of membrane patches from neuroblastoma cells to intracellular Ca2+ ions, and found a class of nonselective cation channels activated by micromolar concentrations of Ca2+, which suggests that this hitherto scarcely recognized channel species may be more widely distributed than previously supposed.
Journal ArticleDOI
Separation of two voltage-sensitive potassium currents, and demonstration of a tetrodotoxin-resistant calcium current in frog motoneurones.
Ellen F. Barrett,J N Barret +1 more
TL;DR: Depolarization‐induced voltage and conductance changes were studied in frog montoneurones in isolated, perfused spinal cord slices to demonstrate that in frog mot oneurones the repolarized‐fast afterhyperpolarization sequence and the slow afterhyperPolarization are produced by different K+ conductance systems.
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