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A new cellular mechanism for coupling inputs arriving at different cortical layers

Matthew E. Larkum, J. Julius Zhu and Bert Sakmann
Additional contact information
Matthew E. Larkum: Abt. Zellphysiologie, Max-Planck-Institut für Medizinische Forschung
J. Julius Zhu: Abt. Zellphysiologie, Max-Planck-Institut für Medizinische Forschung
Bert Sakmann: Abt. Zellphysiologie, Max-Planck-Institut für Medizinische Forschung

Nature, 1999, vol. 398, issue 6725, 338-341

Abstract: Abstract Pyramidal neurons in layer 5 of the neocortex of the brain extend their axons and dendrites into all layers. They are also unusual in having both an axonal and a dendritic zone for the initiation of action potentials1,2,3,4,5,6. Distal dendritic inputs, which normally appear greatly attenuated at the axon, must cross a high threshold at the dendritic initiation zone to evoke calcium action potentials1,7 but can then generate bursts of axonal action potentials. Here we show that a single back-propagating sodium action potential generated in the axon8 facilitates the initiation of these calcium action potentials when it coincides with distal dendritic input within a time window of several milliseconds. Inhibitory dendritic input can selectively block the initiation of dendritic calcium action potentials, preventing bursts of axonal action potentials. Thus, excitatory and inhibitory postsynaptic potentials arising in the distal dendrites can exert significantly greater control over action potential initiation in the axon than would be expected from their electrotonically isolated locations. The coincidence of a single back-propagating action potential with a subthreshold distal excitatory postsynaptic potential to evoke a burst of axonal action potentials represents a new mechanism by which the main cortical output neurons can associate inputs arriving at different cortical layers.

Date: 1999
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Citations: View citations in EconPapers (10)

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DOI: 10.1038/18686

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