Role of Gap Junctions in Synchronized Neuronal Oscillations in the Inferior Olive

doi:10.1152/jn.00353.2005

Role of Gap Junctions in Synchronized Neuronal Oscillations in the Inferior Olive

Elena Leznik and Rodolfo Llinás

Department of Physiology and Neuroscience, New York University Medical School, New York, New York

Submitted 5 April 2005; accepted in final form 25 May 2005

Inferior olivary (IO) neurons are electrically coupled throughgap junctions and generate synchronous subthreshold oscillationsof their membrane potential at a frequency of 1–10 Hz.Whereas the ionic mechanisms of these oscillatory responsesare well understood, their origin and ensemble properties remaincontroversial. Here, the role of gap junctions in generatingand synchronizing IO oscillations was examined by combiningintracellular recordings with high-speed voltage-sensitive dyeimaging in rat brain stem slices. Single cell responses andensemble synchronized responses of IO neurons were comparedin control conditions and in the presence of 18 ${beta}$ -glycyrrhetinicacid (18 ${beta}$ -GA), a pharmacological gap junction blocker. Underour experimental conditions, 18 ${beta}$ -GA had no adverse effects onintrinsic electroresponsive properties of IO neurons, otherthan the block of gap junction-dependent dye coupling and theresulting change in cells' passive properties. Application of18 ${beta}$ -GA did not abolish single cell oscillations. Pharmacologicallyuncoupled IO neurons continued to oscillate with a frequencyand amplitude that were similar to those recorded in controlconditions. However, these oscillations were no longer synchronizedacross a population of IO neurons. Our optical recordings didnot detect any clusters of synchronous oscillatory activityin the presence of the blocker. These results indicate thatgap junctions are not necessary for generating subthresholdoscillations, rather, they are required for clustering of coherentoscillatory activity in the IO. The findings support the viewthat oscillatory properties of single IO neurons endow the systemwith important reset dynamics, while gap junctions are mainlyrequired for synchronized neuronal ensemble activity.

Address for reprint requests and other correspondence: R. Llinás, New York Univ. Medical School, Dept. of Physiology and Neuroscience, 550 First Ave., MSB 432, New York, NY 10016 (E-mail: llinar01{at}endeavor.med.nyu.edu)

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