SK channels enhancing excitability are expressed at or near the
Download scientific diagram | SK channels enhancing excitability are expressed at or near the soma of CA1 pyramidal cells. A, Representative experiment showing the effects of D-TC (100 M) applied in the aCSF on the firing of an XE991-treated neuron. In aCSF containing 10 M XE991, the neuron fired a burst of four spikes (a), which was increased to seven spikes by D-TC (b) in a reversible manner (c). B, C, Bar histogramssummarizingtheeffectofD-TCappliedintheaCSFonthenumberofintraburstspikesandDSs,respectively(n5).D,SchemeofahippocampalsliceshowingpointsoffocalD-TCapplications(1-4) in relation to the recording point (3). E, Data from a representative experiment in which D-TC was focally applied to distal (1), proximal apical dendritic (2), and somatic regions (3) of the recorded neuron. The neuron was superfused with aCSF containing 10 M XE991. The graph depicts the number of intraburst spikes at each time point. F, Selected recordings from the experiment described in E. The letters depict the time points at which the recordings were obtained (triangles in E). Note extra spikes in c and e. G, Data from a representative experiment in which D-TC was focally applied to basal dendritic (4) and somatic regions (3) of the recorded neuron. Otherwise, similar to E. H, Selected recordings from the experiment described in G. Note extra spikes only in c. I, Bar histogram summarizing the number of intraburst spikes generated by XE991-treated neurons 5 min after focally applying D-TC to soma (n 7), proximal apical dendrites (n 7), distal dendrites (n 6), and basal dendrites (n 4). The number of neurons in the control group was seven. Significant increase was achieved only when D-TC was applied to the soma or to the proximal dendrites. from publication: Role of Small Conductance Ca2(+)-Activated K+ Channels in Controlling CA1 Pyramidal Cell Excitability | Small-conductance Ca(2+)-activated K(+) (SK or KCa2) channels are widely expressed in the CNS. In several types of neurons, these channels were shown to become activated during repetitive firing, causing early spike frequency adaptation. In CA1 pyramidal cells, SK channels in | Pyramidal Cells, Hippocampus and Neuron | ResearchGate, the professional network for scientists.
Presence of Small-Conductance Calcium-Activated Potassium (SK) Channels in the Central and Peripheral Nervous Systems and Their Role in Health and Disease
PDF) Role of Small Conductance Ca2(+)-Activated K+ Channels in
Presence of Small-Conductance Calcium-Activated Potassium (SK) Channels in the Central and Peripheral Nervous Systems and Their Role in Health and Disease
Calcium dependence of both lobes of calmodulin is involved in binding to a cytoplasmic domain of SK channels
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Small-conductance Ca2+-activated K+ channels: insights into their roles in cardiovascular disease
Transient potassium channels augment degeneracy in hippocampal active dendritic spectral tuning
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Kv1 potassium channels control action potential firing of putative GABAergic deep cerebellar nuclear neurons
