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Single interneurons are able to prevent repetitive firing of postsynaptic pyramidal cells (R. Miles, K. Toth, A.I. Gulyas, N. Hajos, and T.F. Freund. Neuron, 16: 815-823, 1996), whereas on occasion a single pyramidal cell may be able to activate an interneuron under in vitro conditions (A.I. Gulyas, R. Miles, A. Sik, K. Toth, N. Tamamaki, and T.F. Freund. Nature (London), 366: 683-687, 1993). Inhibition is therefore extremely powerful. Transient suppression of interneuronal activity allows the precise timing and synchronization of inhibitory postsynaptic potentials arriving at principal cells. A rhythmic suppression or modulation of interneuron discharge may be brought about by input from at least two major sources: (i) from other local interneurons or (ii) from subcortical centers. Of the possible local sources, in the present review particular attention will be paid to GABAergic neurons specialized to innervate other interneurons. Subcortical pathways known to modulate specific inhibitory functions in the hippocampus, i.e., the GABAergic and cholinergic septohippocampal and the serotonergic raphe hippocampal pathways, will also be reviewed. 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