TY - JOUR T1 - Optical Current Source Density Analysis in Hippocampal Organotypic Culture Shows That Spreading Depression Occurs with Uniquely Reversing Currents JF - The Journal of Neuroscience JO - J. Neurosci. SP - 3952 LP - 3961 DO - 10.1523/JNEUROSCI.0491-05.2005 VL - 25 IS - 15 AU - Phillip E. Kunkler AU - Raymond E. Hulse AU - Michael W. Schmitt AU - Charles Nicholson AU - Richard P. Kraig Y1 - 2005/04/13 UR - http://www.jneurosci.org/content/25/15/3952.abstract N2 - Spreading depression (SD) involves current flow through principal neurons, but the pattern of current flow over the expanse of susceptible tissues or individual principal neurons remains undefined. Accordingly, tissue and single cell maps made from digital imaging of voltage-sensitive dye changes in hippocampal organotypic cultures undergoing SD were processed via optical current source density analysis to reveal the currents associated with pyramidal neurons. Two distinctive current flow patterns were seen. The first was a trilaminar pattern (420 μm2) that developed with the onset of SD in CA3 pyramidal neurons, in which SD most often began. This initial pattern comprised a somatic current sink with current sources to either side in the dendrites that lasted for seconds extending into the first aspect of the classical “inverted saddle” interstitial direct current waveform of SD. Next, the somatic sink backpropagated at a speed of millimeters per minute into the proximal dendrites, resulting in a reversal of the initial current flow pattern to its second orientation, namely dendritic sinks associated with a somatic source. The latter persisted for the remainder of SD in CA3 and was the only pattern seen in CA1, in which SD was rarely initiated. This backpropagating SD current flow resembles that of activity-dependent synaptic activation. Retrograde and associative signaling via principal neuron current flow is a key means to affect tissue function, including synaptic activation and, by extension, perhaps SD. Such current-related postsynaptic signaling might not only help explain SD but also neuroprotection and migraine, two phenomena increasingly recognized as being related to SD. ER -