Modulation of LTP at rat hippocampal CA3-CA1 synapses by direct current stimulation

F. Ranieri, M. V. Podda, E. Riccardi, G. Frisullo, M. Dileone, P. Profice, F. Pilato, V. di Lazzaro, C. Grassi

Research output: Contribution to journalArticlepeer-review


Transcranial direct current stimulation (tDCS) can produce a lasting polarity-specific modulation of cortical excitability in the brain, and it is increasingly used in experimental and clinical settings. Recent studies suggest that the aftereffects of tDCS are related to molecular mechanisms of activitydependent synaptic plasticity. Here we investigated the effect of DCS on the induction of one of the most studied N-methyl-D-aspartate receptor-dependent forms of long-term potentiation (LTP) of synaptic activity at CA3-CA1 synapses in the hippocampus. We show that DCS applied to rat brain slices determines a modulation of LTP that is increased by anodal and reduced by cathodal DCS. Immediate early genes, such as c-fos and zif268 (egr1/NGFI-A/krox24), are rapidly induced following neuronal activation, and a specific role of zif268 in the induction and maintenance of LTP has been demonstrated. We found that both anodal and cathodal DCS produce a marked subregion-specific increase in the expression of zif268 protein in the cornus ammonis (CA) region, whereas the same protocols of stimulation produce a less pronounced increase in c-fos protein expression in the CA and in dentate gyrus regions of the hippocampus. Brain-derived neurotrophic factor expression was also investigated, and it was found to be reduced in cathodal-stimulated slices. The present data demonstrate that it is possible to modulate LTP by using DCS and provide the rationale for the use of DCS in neurological diseases to promote the adaptive and suppress the maladaptive forms of brain plasticity.

Original languageEnglish
Pages (from-to)1868-1880
Number of pages13
JournalJournal of Neurophysiology
Issue number7
Publication statusPublished - Apr 1 2012


  • Hippocampus
  • Long-term potentiation
  • Synaptic plasticity

ASJC Scopus subject areas

  • Physiology
  • Neuroscience(all)

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