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J Vis Exp


Title:Imaging neuronal responses in slice preparations of vomeronasal organ expressing a genetically encoded calcium sensor
Author(s):Ma L; Haga-Yamanaka S; Yu QE; Qiu Q; Kim S; Yu CR;
Address:"Stowers Institute for Medical Research, USA"
Journal Title:J Vis Exp
Year:2011
Volume:20111206
Issue:58
Page Number: -
DOI: 10.3791/3404
ISSN/ISBN:1940-087X (Electronic) 1940-087X (Linking)
Abstract:"The vomeronasal organ (VNO) detects chemosensory signals that carry information about the social, sexual and reproductive status of the individuals within the same species. These intraspecies signals, the pheromones, as well as signals from some predators, activate the vomeronasal sensory neurons (VSNs) with high levels of specificity and sensitivity. At least three distinct families of G-protein coupled receptors, V1R, V2R and FPR, are expressed in VNO neurons to mediate the detection of the chemosensory cues. To understand how pheromone information is encoded by the VNO, it is critical to analyze the response profiles of individual VSNs to various stimuli and identify the specific receptors that mediate these responses. The neuroepithelia of VNO are enclosed in a pair of vomer bones. The semi-blind tubular structure of VNO has one open end (the vomeronasal duct) connecting to the nasal cavity. VSNs extend their dendrites to the lumen part of the VNO, where the pheromone cues are in contact with the receptors expressed at the dendritic knobs. The cell bodies of the VSNs form pseudo-stratified layers with V1R and V2R expressed in the apical and basal layers respectively. Several techniques have been utilized to monitor responses of VSNs to sensory stimuli. Among these techniques, acute slice preparation offers several advantages. First, compared to dissociated VSNs, slice preparations maintain the neurons in their native morphology and the dendrites of the cells stay relatively intact. Second, the cell bodies of the VSNs are easily accessible in coronal slice of the VNO to allow electrophysiology studies and imaging experiments as compared to whole epithelium and whole-mount preparations. Third, this method can be combined with molecular cloning techniques to allow receptor identification. Sensory stimulation elicits strong Ca2+ influx in VSNs that is indicative of receptor activation. We thus develop transgenic mice that express G-CaMP2 in the olfactory sensory neurons, including the VSNs. The sensitivity and the genetic nature of the probe greatly facilitate Ca2+ imaging experiments. This method has eliminated the dye loading process used in previous studies. We also employ a ligand delivery system that enables application of various stimuli to the VNO slices. The combination of the two techniques allows us to monitor multiple neurons simultaneously in response to large numbers of stimuli. Finally, we have established a semi-automated analysis pipeline to assist image processing"
Keywords:"Animals Biosensing Techniques/*methods Calcium/*analysis/metabolism Female Green Fluorescent Proteins/biosynthesis/chemistry/genetics Intracellular Calcium-Sensing Proteins/biosynthesis/*chemistry/genetics Male Mice Mice, Transgenic Neurons/cytology/metab;"
Notes:"MedlineMa, Limei Haga-Yamanaka, Sachiko Yu, Qingfeng Elden Qiu, Qiang Kim, Sangseong Yu, C Ron eng R01 DC008003/DC/NIDCD NIH HHS/ NIDCD 008003/PHS HHS/ Research Support, N.I.H., Extramural Research Support, Non-U.S. Gov't Video-Audio Media 2011/12/14 J Vis Exp. 2011 Dec 6; (58):3404. doi: 10.3791/3404"

 
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Citation: El-Sayed AM 2024. The Pherobase: Database of Pheromones and Semiochemicals. <http://www.pherobase.com>.
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