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Calcium-dependent, slowly inactivating potassium currents in cultured neurons of rat neocortex (1995)

Hamon, B. ; Audinat, E. ; Gibelin, N. ; [et al.]

Springer

Experimental brain research 107 (1995), S. 197-204

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ISSN: 1432-1106

Keywords: Slowly inactivating potassium currents ; Patch-clamp ; Cortical neurons ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Slowly inactivating outward currents were examined in neurons from rat anterior cortex dissociated at postnatal day 1 and recorded after 7–48 days in vitro by the use of whole-cell patch-clamp technique, in the presence of 0.5–0.8 μM tetrodotoxin (TTX), 50 μM carbachol and 1–5 mM CsCl2. Experiments were often carried out in the additional presence of 1–5 mM CsCl2, which blocks the anomalous, inwardly rectifying I Q, the fast Ca 2 + -dependent K+ current (I C), and 50 μM carbachol, which depresses the I M current. These currents were evoked by depolarizing steps to -40+-5 mV from a conditioning hyperpolarization to -110+-10 mV. Their sensitivity to elevation from 2.5 to 12.5 mM in extracellular K+ concentration, together with their sensitivity to 5–15 mM tetraethylammonium, suggests that they are mainly carried by K+ ions. Their activation and inactivation curves show that the threshold for activation is -65 mV, that their inactivation is achieved at -75 mV and that potentials more negative than -120 mV are needed to abolish it. The time-dependence of de-inactivation gives a maximal current amplitude for conditioning hyperpolarizations of 2 s and is best described by a monoexponential function with a time constant of 0.7 s. Slow, transient K+ currents were depressed by low doses of 4-aminopyridine (30–100 μM), which indicates the occurrence of an I D-type component in the recorded K+ currents. No slowly declining K+ current was expressed when a recording solution containing 10 mM 1,2-bis(2-aminophenoxy)ethane-N, N,N′-N′-tetraacetic acid (BAPTA), instead of 1–5 mM BAPTA, was used. When recorded without Ca2+ chelator in the pipette, slowly declining K+ currents were blocked by bath-applied 40–50 μM BAPTA-aminoethoxy, revealing a large-amplitude, rapidly inactivating outward current. This residual component is insensitive to 50 μM 4-aminopyridine and may include a current more related to the I A-type. Our data provide evidence that, in cultured cortical neurons from rat, the expression of an I D-like K+ current is highly dependent on internal Ca2+ concentration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00230041

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Climbing Fibre Responses in Olivo-cerebellar Slice Cultures. I. Microelectrode Recordings from Purkinje Cells (1990)

Knöpfel, T. ; Audinat, E. ; Gähwiler, B. H.

Oxford, UK : Blackwell Publishing Ltd

European journal of neuroscience 2 (1990), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Cerebellar slices prepared from newborn rats were co-cultured with slices derived from the inferior olive of 4-day-old rats. After several weeks in vitro olivary fibres projecting into the cerebellar tissue could be assessed by anterograde labelling with the fluorescent dye 1,1-dioctadecyl-3,3,3,3′-tetramethylindocarbocyanine perchlorate (Dil). Following electrical field stimulation of the olivary tissue, all-or-nothing complex spikes were generated in Purkinje cells, which closely resembled climbing fibre responses as seen in situ. These responses were completely and reversibly abolished by 6-cyano-7-nitroquinoxaline-2-3-dione (CNQX, 5 μM), an antagonist of non-N-methyl-D-aspartate excitatory amino acid receptors. Wash in of smaller concentrations of CNQX (0.5–2 μM) resulted in a graded dose-dependent depression of the climbing fibre-induced postsynaptic potentials and in a consecutive failure of distinct active components of the complex spikes. With climbing fibre synaptic transmission blocked by CNQX, complex spike-like potentials could, however, still be evoked by intrasomatic injection of depolarizing current pulses. Increasing the concentration of Mg2+ in the bathing solution from 0.5 to up to 8 mM depressed regenerative complex-spike components. Olivary stimulation elicited only monophasic postsynaptic potentials in Purkinje cells under these conditions. These observations indicate that voltage-gated conductances which are substantially involved in the generation of the complex spike, are gated by the climbing fibre synaptic depolarization rather than directly by the climbing fibre transmitter.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1460-9568.1990.tb00463.x

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Excitatory amino acids receptors of cerebellar purkinje cells: Development and plasticity

Crepel, F. ; Audinat, E.

Amsterdam : Elsevier

Progress in Biophysics and Molecular Biology 55 (1991), S. 31-46

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ISSN: 0079-6107

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Physics

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0079-6107(91)90010-P

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Cortico-cortical connections of the limbic cortex of the rat (1988)

Audinat, E. ; Condé, F. ; Crépel, F.

Springer

Experimental brain research 69 (1988), S. 439-443

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ISSN: 1432-1106

Keywords: Fluorescent tracers ; Retrograde transport ; Prefrontal cortex ; Hippocampus

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary By means of the retrograde transport of fluorescent tracers (Fast Blue, True Blue, Fluorogold and Diamidino Yellow), the cortico-cortical connections of prelimbic, insular, anterior and posterior cingulate (retrosplenial) areas have been studied. Our results demonstrate that there are, in the cortex of the adult rat, a few cells which have branched axons with connections in the ipsilateral hemisphere (associational neurons) or in the contralateral hemisphere (callosal neurons). The callosal neurons could be separated into two categories: “double callosal” neurons which project both axon collaterals to two cortical areas of the contralateral hemisphere, and “associational-callosal” neurons which send axon collaterals to both hemispheres.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00247590

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Neurotensin-induced excitation of neurons of the rat's frontal cortex studied intracellularly in vitro (1989)

Audinat, E. ; Hermel, J.-M. ; Crépel, F.

Springer

Experimental brain research 78 (1989), S. 358-368

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ISSN: 1432-1106

Keywords: Neurotensin ; Frontal cortex ; In vitro slice preparation ; Intracellular recording ; Single-electrode-voltage-clamp ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The actions of neurotensin (NT) on frontal pyramidal neurons were studied in vitro in slices of rat cerebral cortex using current clamp and single electrode voltage clamp (SEVC) techniques. Bath application of NT (0.1 μM–10 μM) induced a depolarization (2–13 mV) in 88% of the pyramidal cells, this effect was associated with a decrease in input conductance of 5–35% and its reversal potential was estimated at -88 +/-9.7mV. Typically, this depolarizing effect of NT was transient, since no cell responded to a second application of the peptide within 20 min after the first one. NT also induced an increase in the rate of firing of pyramidal cells evoked by direct stimulation, even when an hyperpolarizing current was applied to prevent the depolarization induced by NT. This effect could neither be explained by a decrease of the post-spike after-hyperpolarization, nor by an increase of the persistent sodium current which sustains the spiking of pyramidal cells, since the former was not affected consistently by NT and the later was insensitive to the peptide. This excitation of pyramidal neurons by NT persisted after blockade of synaptic transmission. On the other hand, NT also enhanced the synaptic noise recorded in pyramidal cells in standard perfusing medium. Furthermore, dopaminergic antagonists and noradrenergic antagonists failed to block these effects of NT. Finally, the inactive fragment of the peptide, NT(1–8), did not affect membrane properties of pyramidal cells. All together, these results suggest that NT excites frontal cortical neurons through the activation of specific NT receptors.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228907

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