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J Neurosci


Title:Interdependent Conductances Drive Infraslow Intrinsic Rhythmogenesis in a Subset of Accessory Olfactory Bulb Projection Neurons
Author(s):Gorin M; Tsitoura C; Kahan A; Watznauer K; Drose DR; Arts M; Mathar R; O'Connor S; Hanganu-Opatz IL; Ben-Shaul Y; Spehr M;
Address:"Department of Chemosensation, Institute for Biology II. School of Medicine, Department of Medical Neurobiology, The Hebrew University of Jerusalem, Jerusalem, 91120 Israel. Institute for Theoretical Information Technology, RWTH Aachen University, D-52074 Aachen, Germany. Biocomputation Group, University of Hertfordshire, Hatfield, Hertfordshire AL10 9AB, United Kingdom, and. Developmental Neurophysiology, Institute of Neuroanatomy, University Medical Center Hamburg-Eppendorf, D-20251 Hamburg, Germany. Department of Chemosensation, Institute for Biology II, m.spehr@sensorik.rwth-aachen.de"
Journal Title:J Neurosci
Year:2016
Volume:36
Issue:11
Page Number:3127 - 3144
DOI: 10.1523/JNEUROSCI.2520-15.2016
ISSN/ISBN:1529-2401 (Electronic) 0270-6474 (Print) 0270-6474 (Linking)
Abstract:"The accessory olfactory system controls social and sexual behavior. However, key aspects of sensory signaling along the accessory olfactory pathway remain largely unknown. Here, we investigate patterns of spontaneous neuronal activity in mouse accessory olfactory bulb mitral cells, the direct neural link between vomeronasal sensory input and limbic output. Both in vitro and in vivo, we identify a subpopulation of mitral cells that exhibit slow stereotypical rhythmic discharge. In intrinsically rhythmogenic neurons, these periodic activity patterns are maintained in absence of fast synaptic drive. The physiological mechanism underlying mitral cell autorhythmicity involves cyclic activation of three interdependent ionic conductances: subthreshold persistent Na(+) current, R-type Ca(2+) current, and Ca(2+)-activated big conductance K(+) current. Together, the interplay of these distinct conductances triggers infraslow intrinsic oscillations with remarkable periodicity, a default output state likely to affect sensory processing in limbic circuits. SIGNIFICANCE STATEMENT: We show for the first time that some rodent accessory olfactory bulb mitral cells-the direct link between vomeronasal sensory input and limbic output-are intrinsically rhythmogenic. Driven by >/= 3 distinct interdependent ionic conductances, infraslow intrinsic oscillations show remarkable periodicity both in vitro and in vivo. As a novel default state, infraslow autorhythmicity is likely to affect limbic processing of pheromonal information"
Keywords:"6-Cyano-7-nitroquinoxaline-2, 3-dione/pharmacology Action Potentials/drug effects/*physiology Animals Calcium/metabolism Calcium Channel Blockers/pharmacology Cardiovascular Agents/pharmacology Excitatory Amino Acid Antagonists/pharmacology Group II Phosph;"
Notes:"MedlineGorin, Monika Tsitoura, Chryssanthi Kahan, Anat Watznauer, Katja Drose, Daniela R Arts, Martijn Mathar, Rudolf O'Connor, Simon Hanganu-Opatz, Ileana L Ben-Shaul, Yoram Spehr, Marc eng Research Support, Non-U.S. Gov't 2016/03/18 J Neurosci. 2016 Mar 16; 36(11):3127-44. doi: 10.1523/JNEUROSCI.2520-15.2016"

 
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