A Temporally Asymmetric Hebbian Rule Governing Plasticity in the Human Motor Cortex

doi:10.1152/jn.00900.2002

A Temporally Asymmetric Hebbian Rule Governing Plasticity in the Human Motor Cortex

Alexander Wolters,¹^,^* Friedhelm Sandbrink,¹^,^* Antje Schlottmann,¹ Erwin Kunesch,¹ Katja Stefan,¹ Leonardo G. Cohen,² Reiner Benecke,¹ and Joseph Classen¹^,³

¹Human Cortical Physiology Laboratory, Department of Neurology, University of Rostock, D-18147 Rostock, Germany; ²Human Cortical Physiology Section, National Institute of Neurological Disorders and Stroke, Medical Neurology Branch, National Institutes of Health, Bethesda, Maryland; and ³Human Cortical Physiology and Motor Control Laboratory, Department of Neurology, University of Wuerzburg, D-97080 Wuerzburg, Germany

Wolters, Alexander, Friedhelm Sandbrink, Antje Schlottmann, Erwin Kunesch, Katja Stefan, Leonardo G. Cohen, Reiner Benecke, and Joseph Classen. A Temporally Asymmetric Hebbian Rule Governing Plasticity in the Human Motor Cortex. J. Neurophysiol. 89: 2339-2345, 2003. Synaptic plasticity is conspicuously dependent on the temporal order of the pre- and postsynaptic activity. Human motor corticalexcitability can be increased by a paired associative stimulation(PAS) protocol. Here we show that it can also be decreased byminimally changing the interval between the two associative stimuli.Corticomotor excitability of the abductor pollicis brevis (APB)representation was tested before and after repetitively pairingof single right median nerve simulation with single pulse transcranialmagnetic stimulation (TMS) delivered over the optimal site foractivation of the contralateral APB. Following PAS, depressionof TMS-evoked motor-evoked potentials (MEPs) was induced onlywhen the median nerve stimulation preceded the TMS pulse by 10ms, while enhancement of cortical excitability was induced usingan interstimulus interval of 25 ms, suggesting an important roleof the sequence of cortical events triggered by the two stimulationmodalities. Experiments using F-wave studies and electrical brainstem stimulation indicated that the site of the plastic changesunderlying the decrease of MEP amplitudes following PAS (10 ms)was within the motor cortex. MEP amplitudes remained depressedfor approximately 90 min. The decrease of MEP amplitudes was blockedwhen PAS(10 ms) was performed under the influence of dextromethorphan,an N-methyl-D-aspartate-receptor antagonist, or nimodipine, anL-type voltage-gated calcium-channel antagonist. The physiologicalprofile of the depression of human motor cortical excitabilityfollowing PAS(10 ms) suggests long-term depression of synapticefficacy to be involved. Together with earlier findings, thisstudy suggests that strict temporal Hebbian rules govern the inductionof long-term potentiation/long-term depression-like phenomenain vivo in the human primary motorcortex.

^* A. Wolters and F. Sandbrink contributed equally to thiswork.

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