Recent studies have shown that cerebellar Bergmann glia display coordinated Ca(2+) transients in live mice. However, the functional significance of Bergmann glial Ca(2+) signaling remains poorly understood. Using transgenic mice that allow selective stimulation of glial cells, we report here that cytosolic Ca(2+) regulates uptake of K(+) by Bergmann glia, thus providing a powerful mechanism for control of Purkinje cell-membrane potential. The decline in extracellular K(+) evoked by agonist-induced Ca(2+) in Bergmann glia transiently increased spike activity of Purkinje cells in cerebellar slices as well as in live anesthetized mice. Thus, Bergmann glia play a previously unappreciated role in controlling the membrane potential and thereby the activity of adjacent Purkinje cells.