Reversal of plasticity-like effects in the human motor cortex.

A number of experiments in animals have shown that successful induction of plasticity can be abolished if an individually ineffective intervention is given shortly afterwards. Such effects are termed depotentiation/de-depression. These effects contrast with metaplasticity/homeostatic plasticity in which pretreatment of the system with one protocol modulates the response to a second plasticity-inducing protocol. Homeostatic plasticity maintains the balance of plasticity in the nervous system at a stable level whereas depotentiation/de-depression abolishes synaptic plasticity that has just occurred in order to prevent ongoing learning. In the present study, we developed novel protocols to explore the reversal of LTP- and LTD-like effects in healthy conscious humans based on the recently developed theta burst form of repetitive transcranial magnetic stimulation (TBS). The potentiation effect induced by intermittent TBS (iTBS) was completely erased by a short form of continuous TBS (cTBS150) given 1 min after iTBS, whereas the depressive effect of continuous TBS (cTBS) was successfully abolished by a short form of iTBS (iTBS150). The reversal was specific to the nature of the second protocol and was time dependent since it was less effective when the intervention was given 10 min after induction of plasticity. All these features are compatible with those of depotentiation and de-depression demonstrated in animal studies. The development of the present protocols would be helpful to study the physiology of the reversal of plasticity and learning and to probe the abnormal depotentiation/de-depression shown in animal models of neurological diseases (e.g. Parkinson's disease with dyskinesia, dystonia and Huntingon's disease).