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Transcranial magnetic stimulation (TMS) is a non-invasive technique which can be used to study different intracortical excitatory and inhibitory neuronal circuits in the intact human being. In the primary motor cortex, there are essentially three different TMS measures of inhibitory neuronal circuits as determined by paired-pulse TMS: short-interval intracortical inhibition (SICI), long-interval intracortical inhibition (LICI) and interhemispheric inhibition (IHI). It was hypothesized that SICI is a GABAA receptor mediated inhibition (Ilic et al., 2002) whereas LICI and IHI are mediated by GABAB receptors (Daskalakis et al., 2002; McDonnell et al., 2006). Additionally, it was shown that these inhibitory circuits interact negatively, possible due to presynaptic GABAB receptor mediated inhibition (Sanger et al., 2001; Daskalakis et al., 2002). Which neuronal populations exactly underlie SICI, LICI and IHI, is not completely clear and by which mechanism these inhibitory circuits interact has never been tested pharmacologically so far. Thus, the effects of a single oral dose of Diazepam (DZP), a specific positive allosteric modulator at the GABAA receptor, and of Baclofen (BAC), a specific GABAB receptor agonist, on SICI, LICI and IHI as well as their interactions were tested here in a randomized, placebo controlled, double-blinded crossover study. SICI significantly increased after intake of DZP whereas BAC did not change SICI. Conversely, LICI significantly increased after intake of BAC but did not change after intake of DZP. IHI showed only a trend towards a decrease after intake of DZP but no change after intake of BAC. The interactions IHI-SICI, LICI-IHI and LICI-SICI were all negative at baseline. SICI and IHI were partially suppressed in the presence of IHI and LICI, respectively, and SICI in the presence of LICI was almost completely blocked. BAC did not change any of these interactions, whereas DZP significantly increased SICI in the presence of LICI. This study is the first to examine by means of pharmacological testing the complex interactions between different inhibitory circuits in the human motor cortex. The effects of DZP and BAC on SICI and LICI confirmed the notion that SICI is a GABAA receptor mediated intracortical inhibition whereas LICI depends on GABAB receptor mediated neurotransmission. The pharmacology of IHI at short interstimulus intervals of < 20 ms (12 ms in this study) remains still inconclusive and warrants further investigation. Findings further suggest that SICI, LICI and IHI represent three different inhibitory neuronal circuits which can be tested non-invasively by means of paired-pulse TMS. Furthermore, the data support the idea that the negative interactions IHI-SICI, LICI-IHI and LICI-SICI are most likely due to presynaptic GABAB receptor mediated autoinhibition.