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J Neurophysiol

Title:		Ion conductances in supporting cells isolated from the mouse vomeronasal organ
Author(s):		Ghiaroni V; Fieni F; Tirindelli R; Pietra P; Bigiani A;
Address:		"Dipartimento di Scienze Biomediche, Universita di Modena e Reggio Emilia, Italy"
Journal Title:		J Neurophysiol
Year:		2003
Volume:		89
Issue:		1
Page Number:		118 - 127
DOI:		10.1152/jn.00545.2002
ISSN/ISBN:		0022-3077 (Print) 0022-3077 (Linking)
Abstract:		"The vomeronasal organ (VNO) is a chemosensory structure involved in the detection of pheromones in most mammals. The VNO sensory epithelium contains both neurons and supporting cells. Data suggest that vomeronasal neurons represent the pheromonal transduction sites, whereas scarce information is available on the functional properties of supporting cells. To begin to understand their role in VNO physiology, we have characterized with patch-clamp recording techniques the electrophysiological properties of supporting cells isolated from the neuroepithelium of the mouse VNO. Supporting cells were distinguished from neurons by their typical morphology and by the lack of immunoreactivity for Ggamma8 and OMP, two specific markers for vomeronasal neurons. Unlike glial cells in other tissues, VNO supporting cells exhibited a depolarized resting potential (about -29 mV). A Goldman-Hodgkin-Katz analysis for resting ion permeabilities revealed indeed an unique ratio of P(K):P(Na):P(Cl) = 1:0.23:1.4. Supporting cells also possessed voltage-dependent K(+) and Na(+) conductances that differed significantly in their biophysical and pharmacological properties from those expressed by VNO neurons. Thus glial membranes in the VNO can sustain significant fluxes of K(+) and Na(+), as well as Cl(-). This functional property might allow supporting cells to mop-up and redistribute the excess of KCl and NaCl that often occurs in certain pheromone-delivering fluids, like urine, and that could blunt the sensitivity of VNO neurons to pheromones. Therefore vomeronasal supporting cells could affect chemosensory transduction in the VNO by regulating the ionic strength of the pheromone-containing medium"
Keywords:		"Animals Male Membrane Potentials/physiology Mice Mice, Inbred C57BL Neuroglia/*physiology Neurons, Afferent/physiology Patch-Clamp Techniques Potassium/metabolism Potassium Channels, Voltage-Gated/physiology Signal Transduction/physiology Sodium/metabolis;"
Notes:		"MedlineGhiaroni, Valeria Fieni, Francesca Tirindelli, Roberto Pietra, Pierangelo Bigiani, Albertino eng Research Support, U.S. Gov't, P.H.S. 2003/01/11 J Neurophysiol. 2003 Jan; 89(1):118-27. doi: 10.1152/jn.00545.2002"