Specific profiles of ion channels and ionotropic receptors define adipose- and bone marrow derived stromal cells

Oksana Forostyak; Olena Butenko; Miroslava Anderova; Serhiy Forostyak; Eva Sykova; Alexei Verkhratsky; Govindan Dayanithi

doi:10.1016/j.scr.2016.03.010

Stem Cell Research (May 2016)

Specific profiles of ion channels and ionotropic receptors define adipose- and bone marrow derived stromal cells

Oksana Forostyak,
Olena Butenko,
Miroslava Anderova,
Serhiy Forostyak,
Eva Sykova,
Alexei Verkhratsky,
Govindan Dayanithi

Affiliations

Oksana Forostyak: Department of Molecular Neurophysiology, Institute of Experimental Medicine, Czech Academy of Sciences, Videnska 1083, Prague 14220, Czech Republic
Olena Butenko: Department of Cellular Neurophysiology, Institute of Experimental Medicine, Czech Academy of Sciences, Videnska 1083, Prague 14220, Czech Republic
Miroslava Anderova: Department of Neuroscience, Charles University, Second Faculty of Medicine, V Uvalu 84, Prague 15006, Czech Republic
Serhiy Forostyak: Department of Neuroscience, Charles University, Second Faculty of Medicine, V Uvalu 84, Prague 15006, Czech Republic
Eva Sykova: Department of Neuroscience, Charles University, Second Faculty of Medicine, V Uvalu 84, Prague 15006, Czech Republic
Alexei Verkhratsky: University of Manchester, School of Biological Sciences, D.4417 Michael Smith Building, Oxford Road, Manchester M13 9PT, UK
Govindan Dayanithi: Department of Molecular Neurophysiology, Institute of Experimental Medicine, Czech Academy of Sciences, Videnska 1083, Prague 14220, Czech Republic

DOI: https://doi.org/10.1016/j.scr.2016.03.010
Journal volume & issue: Vol. 16, no. 3
pp. 622 – 634

Abstract

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Adherent, fibroblastic cells from different tissues are thought to contain subsets of tissue-specific stem/progenitor cells (often called mesenchymal stem cells). These cells display similar cell surface characteristics based on their fibroblastic nature, but also exhibit differences in molecular phenotype, growth rate, and their ability to differentiate into various cell phenotypes. The mechanisms underlying these differences remain poorly understood. We analyzed Ca2+ signals and membrane properties in rat adipose-derived stromal cells (ADSCs) and bone marrow stromal cells (BMSCs) in basal conditions, and then following a switch into medium that contains factors known to modify their character. Modified ADSCs (mADSCs) expressed L-type Ca2+ channels whereas both L- and P/Q- channels were operational in mBMSCs. Both mADSCs and mBMSCs possessed functional endoplasmic reticulum Ca2+ stores, expressed ryanodine receptor-1 and -3, and exhibited spontaneous [Ca2+]i oscillations. The mBMSCs expressed P2X7 purinoceptors; the mADSCs expressed both P2X (but not P2X7) and P2Y (but not P2Y1) receptors. Both types of stromal cells exhibited [Ca2+]i responses to vasopressin (AVP) and expressed V1 type receptors. Functional oxytocin (OT) receptors were, in contrast, expressed only in modified ADSCs and BMSCs. AVP and OT-induced [Ca2+]i responses were dose-dependent and were blocked by their respective specific receptor antagonists. Electrophysiological data revealed that passive ion currents dominated the membrane conductance in ADSCs and BMSCs. Medium modification led to a significant shift in the reversal potential of passive currents from −40 to −50 mV in cells in basal to −80 mV in modified cells. Hence membrane conductance was mediated by non-selective channels in cells in basal conditions, whereas in modified medium conditions, it was associated with K+-selective channels. Our results indicate that modification of ADSCs and BMSCs by alteration in medium formulation is associated with significant changes in their Ca2+ signaling and membrane properties.

Published in Stem Cell Research

ISSN: 1873-5061 (Print); 1876-7753 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Biology (General)
Website: https://www.journals.elsevier.com/stem-cell-research

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