Analysis of calcium signaling in live human Tongue cell 3D-Cultures upon tastant perfusion |
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Affiliation: | 1. Institute of Molecular and Cell Biology, Hochschule Mannheim, 68163 Mannheim, Germany;2. BRAIN AG, 64673 Zwingenberg, Germany;3. Interdisciplinary Center for Neurosciences, Heidelberg University, 69120 Heidelberg, Germany;1. Department of Biochemistry and Biophysics, University of North Carolina, Chapel Hill, NC 27599-7260, United States;2. Institute of Human Genetics, University Medical Center Hamburg-Eppendorf, 20246 Hamburg, Germany;3. Departments of Pharmacology, and Biochemistry & Molecular Biology, Penn State College of Medicine, Hershey, PA 17033-0850, United States;1. College of Food Science and Biotechnology, Zhejiang Gongshang University, Hangzhou 310018, P.R. China;2. Modern Educational Technical Center, Zhejiang Gongshang University, Hangzhou 310018, P.R. China;1. Monell Chemical Senses Center, Philadelphia, Pennsylvania;2. UMR U866 INSERM, Dijon, France;3. Center for Human Nutrition and Department of Cell Biology and Physiology, Washington University, St Louis, Missouri;4. Academy of Science, Brno, Czech Republic;5. Faculty of Pharmaceutical Sciences, Tokushima Bunri University, Tokushima, Japan |
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Abstract: | Bridging the gap between two-dimensional cell cultures and complex in vivo tissues, three-dimensional cell culture models are of increasing interest in the fields of cell biology and pharmacology. However, present challenges hamper live cell imaging of three-dimensional cell cultures. These include (i) the stabilization of these structures under perfusion conditions, (ii) the recording of many z-planes at high spatio-temporal resolution, (iii) and the data analysis that ranges in complexity from whole specimens to single cells. Here, we addressed these issues for the time-lapse analysis of Ca2+ signaling in spheroids composed of human tongue-derived HTC-8 cells upon perfusion of gustatory substances. Live cell imaging setups for confocal and light sheet microscopy were developed that allow simple and robust spheroid stabilization and high-resolution microscopy with perfusion. Visualization of spheroids made of HTC-8 cells expressing the G-GECO fluorescent Ca2+ sensor revealed Ca2+ transients that showed similar kinetics but different amplitudes upon perfusion of bitter compounds Salicine and Saccharin. Dose-dependent responses to Saccharin required extracellular Ca2+. From the border towards the center of spheroids, compound-induced Ca2+ signals were progressively delayed and decreased in amplitude. Stimulation with ATP led to strong Ca2+ transients that were faster than those evoked by the bitter compounds and blockade of purinergic receptors with Suramin abutted the response to Saccharin, suggesting that ATP mediates a positive autocrine and paracrine feedback. Imaging of ATP-induced Ca2+ transients with light sheet microscopy allowed acquisition over a z-depth of 100 μm without losing spatial and temporal resolution. In summary, the presented approaches permit the study of fast cellular signaling in three-dimensional cultures upon compound perfusion. |
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Keywords: | Light sheet fluorescence microscopy Live calcium imaging Perfusion Spheroids Human tongue cells Saccharin |
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