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Calcium-mediated transductive systems and functionally active gap junctions in astrocyte-like GL15 cells

By Steimberg Nathalie, Morabito Caterina, Guarnieri Simone, Pietrangelo Tiziana, Mariggio Maria A, Mazzoleni Giovanna and Fano Giorgio

Abstract

<p>Abstract</p> <p>Background</p> <p>It has been proposed that GL15, a human cell line derived from glioblastoma multiforme, is a possible astroglial-like cell model, based on the presence of cytoplasmic glial fibrillary acidic protein.</p> <p>Results</p> <p>The aim of this work was to delineate the functional characteristics of GL15 cells using various experimental approaches, including the study of morphology, mechanism of induction of intracellular Ca<sup>2+</sup> increase by different physiological agonists, and the presence and permeability of the gap-junction system during cell differentiation.</p> <p>Immunostaining experiments showed the presence and localization of specific glial markers, such as glial fibrillary acidic protein and S100B, and the lack of the neuronal marker S100A. Notably, all the Ca<sup>2+</sup> pathways present in astrocytes were detected in GL15 cells. In particular, oscillations in intracellular Ca<sup>2+</sup> levels were recorded either spontaneously, or in the presence of ATP or glutamate (but not KCl).</p> <p>Immunolabelling assays and confocal microscopy, substantiated by Western blot analyses, revealed the presence of connexin43, a subunit of astrocyte gap-junction channels. The protein is organised in characteristic spots on the plasma membrane at cell-cell contact regions, and its presence and distribution depends on the differentiative status of the cell. Finally, a microinjection/dye-transfer assay, employed to determine gap-junction functionality, clearly demonstrated that the cells were functionally coupled, albeit to varying degrees, in differentiated and undifferentiated phenotypes.</p> <p>Conclusions</p> <p>In conclusion, results from this study support the use of the GL15 cell line as a suitable <it>in vitro</it> astrocyte model, which provides a valuable guide for studying glial physiological features at various differentiation phases.</p

Topics: Physiology, QP1-981, Science, Q, DOAJ:Physiology, DOAJ:Biology, DOAJ:Biology and Life Sciences
Publisher: BioMed Central
Year: 2001
DOI identifier: 10.1186/1472-6793-1-4
OAI identifier: oai:doaj.org/article:274c2458fd644c5eb0970c77a05b0877
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