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Drug‐Responsive Inhomogeneous Cortical Modulation by Direct Current Stimulation

Yan Sun, Sameer C. Dhamne, Alejandro Carretero‐Guillén, Ricardo Salvador, Marti Goldenberg, Brianna Godlewski, Álvaro Pascual‐Leone, Joseph R. Madsen, Scellig Stone, Giulio Ruffini, Javier Márquez‐Ruiz, Alexander Rotenberg

2020Annals of Neurology25 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: Cathodal direct current stimulation (cDCS) induces long-term depression (LTD)-like reduction of cortical excitability (DCS-LTD), which has been tested in the treatment of epilepsy with modest effects. In part, this may be due to variable cortical neuron orientation relative to the electric field. We tested, in vivo and in vitro, whether DCS-LTD occurs throughout the cortical thickness, and if not, then whether drug-DCS pairing can enhance the uniformity of the cortical response and the cDCS antiepileptic effect. METHODS: cDCS-mediated changes in cortical excitability were measured in vitro in mouse motor cortex (M1) and in human postoperative neocortex, in vivo in mouse somatosensory cortex (S1), and in a mouse kainic acid (KA)-seizure model. Contributions of N-methyl-D-aspartate-type glutamate receptors (NMDARs) to cDCS-mediated plasticity were tested with application of NMDAR blockers (memantine/D-AP5). RESULTS: cDCS reliably induced DCS-LTD in superficial cortical layers, and a long-term potentiation (LTP)-like enhancement (DCS-LTP) was recorded in deep cortical layers. Immunostaining confirmed layer-specific increase of phospho-S6 ribosomal protein in mouse M1. Similar nonuniform cDCS aftereffects on cortical excitability were also found in human neocortex in vitro and in S1 of alert mice in vivo. Application of memantine/D-AP5 either produced a more uniform DCS-LTD throughout the cortical thickness or at least abolished DCS-LTP. Moreover, a combination of memantine and cDCS suppressed KA-induced seizures. INTERPRETATION: cDCS aftereffects are not uniform throughout cortical layers, which may explain the incomplete cDCS clinical efficacy. NMDAR antagonists may augment cDCS efficacy in epilepsy and other disorders where regional depression of cortical excitability is desirable. ANN NEUROL 2020;88:489-502.

Topics & Concepts

NeocortexNeuroscienceLong-term potentiationNMDA receptorKainic acidMemantineSomatosensory systemStimulationCortex (anatomy)Glutamate receptorCerebral cortexTetanic stimulationIn vivoChemistryBiologyReceptorBiotechnologyBiochemistryTranscranial Magnetic Stimulation StudiesNeurological disorders and treatmentsNeuroscience and Neural Engineering