Unique features of action potential initiation in cortical neurons

    loading  Checking for direct PDF access through Ovid


Neurons process and encode information by generating sequences of action potentials1,2. For all spiking neurons, the encoding of single-neuron computations into sequences of spikes is biophysically determined by the cell's action-potential-generating mechanism. It has recently been discovered that apparently minor modifications of this mechanism can qualitatively change the nature of neuronal encoding3,4. Here we quantitatively analyse the dynamics of action potential initiation in cortical neuronsin vivo, in vitroand in computational models. Unexpectedly, key features of the initiation dynamics of cortical neuron action potentials-their rapid initiation and variable onset potential-are outside the range of behaviours described by the classical Hodgkin-Huxley theory. We propose a new model based on the cooperative activation of sodium channels that reproduces the observed dynamics of action potential initiation. This new model predicts that Hodgkin-Huxley-type dynamics of action potential initiation can be induced by artificially decreasing the effective density of sodium channels.In vitroexperiments confirm this prediction, supporting the hypothesis that cooperative sodium channel activation underlies the dynamics of action potential initiation in cortical neurons.

Related Topics

    loading  Loading Related Articles