Amplification of EPSPs by axosomatic sodium channels in neocortical pyramidal neurons

Greg Stuart; Bert Sakmann

doi:10.1016/0896-6273(95)90095-0

Amplification of EPSPs by axosomatic sodium channels in neocortical pyramidal neurons

Greg Stuart, Bert Sakmann

Research output: Contribution to journal › Article › Research › peer-review

354 Citations (Scopus)

Abstract

Simultaneous somatic and dendritic recordings were made from the same neocortical layer V pyramidal neuron, and current injection via the dendritic recording pipette was used to simulate the voltage change that occurs during an EPSP. At the soma, these simulated EPSPs increased nonlinearly with the amplitude of the dendritic current injection and with depolarization of the membrane potential. Bath application of the sodium channel blocker TTX decreased large (>5 mV) EPSPs and also blocked amplification of EPSPs at depolarized membrane potentials, whereas calcium channel blockers had little effect. Local application of TTX to the soma and axon blocked EPSP amplification, whereas dendritic application had little effect. Simultaneous somatic and axonal recordings demonstrated that EPSP amplification was largest in the axon. These results show that EPSPs are amplified by voltage-activated sodium channels located close to the soma and in the axon.

Original language	English
Pages (from-to)	1065-1076
Number of pages	12
Journal	Neuron
Volume	15
Issue number	5
DOIs	https://doi.org/10.1016/0896-6273(95)90095-0
Publication status	Published - Nov 1995
Externally published	Yes

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title = "Amplification of EPSPs by axosomatic sodium channels in neocortical pyramidal neurons",

abstract = "Simultaneous somatic and dendritic recordings were made from the same neocortical layer V pyramidal neuron, and current injection via the dendritic recording pipette was used to simulate the voltage change that occurs during an EPSP. At the soma, these simulated EPSPs increased nonlinearly with the amplitude of the dendritic current injection and with depolarization of the membrane potential. Bath application of the sodium channel blocker TTX decreased large (>5 mV) EPSPs and also blocked amplification of EPSPs at depolarized membrane potentials, whereas calcium channel blockers had little effect. Local application of TTX to the soma and axon blocked EPSP amplification, whereas dendritic application had little effect. Simultaneous somatic and axonal recordings demonstrated that EPSP amplification was largest in the axon. These results show that EPSPs are amplified by voltage-activated sodium channels located close to the soma and in the axon.",

author = "Greg Stuart and Bert Sakmann",

note = "Funding Information: We thank Michael H&usser, Guy Major, Jackie and Izik Schiller, and Nelson Spruston for their comments on earlier versions of the manuscript. G. S. acknowledges the financial support of the Alexander von Humboldt Stiftung.",

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T1 - Amplification of EPSPs by axosomatic sodium channels in neocortical pyramidal neurons

AU - Stuart, Greg

AU - Sakmann, Bert

N1 - Funding Information: We thank Michael H&usser, Guy Major, Jackie and Izik Schiller, and Nelson Spruston for their comments on earlier versions of the manuscript. G. S. acknowledges the financial support of the Alexander von Humboldt Stiftung.

PY - 1995/11

Y1 - 1995/11

N2 - Simultaneous somatic and dendritic recordings were made from the same neocortical layer V pyramidal neuron, and current injection via the dendritic recording pipette was used to simulate the voltage change that occurs during an EPSP. At the soma, these simulated EPSPs increased nonlinearly with the amplitude of the dendritic current injection and with depolarization of the membrane potential. Bath application of the sodium channel blocker TTX decreased large (>5 mV) EPSPs and also blocked amplification of EPSPs at depolarized membrane potentials, whereas calcium channel blockers had little effect. Local application of TTX to the soma and axon blocked EPSP amplification, whereas dendritic application had little effect. Simultaneous somatic and axonal recordings demonstrated that EPSP amplification was largest in the axon. These results show that EPSPs are amplified by voltage-activated sodium channels located close to the soma and in the axon.

AB - Simultaneous somatic and dendritic recordings were made from the same neocortical layer V pyramidal neuron, and current injection via the dendritic recording pipette was used to simulate the voltage change that occurs during an EPSP. At the soma, these simulated EPSPs increased nonlinearly with the amplitude of the dendritic current injection and with depolarization of the membrane potential. Bath application of the sodium channel blocker TTX decreased large (>5 mV) EPSPs and also blocked amplification of EPSPs at depolarized membrane potentials, whereas calcium channel blockers had little effect. Local application of TTX to the soma and axon blocked EPSP amplification, whereas dendritic application had little effect. Simultaneous somatic and axonal recordings demonstrated that EPSP amplification was largest in the axon. These results show that EPSPs are amplified by voltage-activated sodium channels located close to the soma and in the axon.

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Amplification of EPSPs by axosomatic sodium channels in neocortical pyramidal neurons

Abstract

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