The ability of astrocytes to control extracellular volume homeostasis is critical for brain function and pathology. Uncovering the mechanisms of cell volume regulation by astrocytes will be important for identifying novel therapeutic targets for neurological conditions, such as those characterized by imbalances to hydro saline challenges (as in edema) or by altered cell volume regulation (as in glioma). One major challenge in studying the astroglial membrane channels involved in volume homeostasis in cell culture model systems is that the expression patterns of these membrane channels do not resemble those observed in vivo. In our previous study, we demonstrated that rat primary astrocytes grown on nanostructured interfaces based on hydrotalcite-like compounds (HTlc) in vitro are differentiated and display molecular and functional properties of in vivo astrocytes, such as the functional expression of inwardly rectifying K+ channel (Kir 4.1) and Aquaporin-4 (AQP4) at the astrocytic microdomain. Here, we take advantage of the properties of differentiated primary astrocytes in vitro to provide an insight into the mechanism underpinning astrocytic cell volume regulation and its correlation with the expression and function of AQP4, Transient Receptor Potential Vanilloid 4 (TRPV4), and Volume Regulated Anion Channel (VRAC).
Cell Volume Regulation Mechanisms in Differentiated Astrocytes / Mola, Maria Grazia; Saracino, Emanuela; Formaggio, Francesco; Amerotti, Arcangela Gabriella; Barile, Barbara; Posati, Tamara; Cibelli, Antonio; Frigeri, Antonio; Palazzo, Claudia; Zamboni, Roberto; Caprini, Marco; Nicchia, Grazia Paola; Benfenati, Valentina. - In: CELLULAR PHYSIOLOGY AND BIOCHEMISTRY. - ISSN 1015-8987. - ELETTRONICO. - 55:S1(2021), pp. 196-212-212. [10.33594/000000469]
Cell Volume Regulation Mechanisms in Differentiated Astrocytes
Saracino, Emanuela;Formaggio, Francesco;Palazzo, Claudia;Caprini, Marco;Benfenati, Valentina
2021
Abstract
The ability of astrocytes to control extracellular volume homeostasis is critical for brain function and pathology. Uncovering the mechanisms of cell volume regulation by astrocytes will be important for identifying novel therapeutic targets for neurological conditions, such as those characterized by imbalances to hydro saline challenges (as in edema) or by altered cell volume regulation (as in glioma). One major challenge in studying the astroglial membrane channels involved in volume homeostasis in cell culture model systems is that the expression patterns of these membrane channels do not resemble those observed in vivo. In our previous study, we demonstrated that rat primary astrocytes grown on nanostructured interfaces based on hydrotalcite-like compounds (HTlc) in vitro are differentiated and display molecular and functional properties of in vivo astrocytes, such as the functional expression of inwardly rectifying K+ channel (Kir 4.1) and Aquaporin-4 (AQP4) at the astrocytic microdomain. Here, we take advantage of the properties of differentiated primary astrocytes in vitro to provide an insight into the mechanism underpinning astrocytic cell volume regulation and its correlation with the expression and function of AQP4, Transient Receptor Potential Vanilloid 4 (TRPV4), and Volume Regulated Anion Channel (VRAC).| File | Dimensione | Formato | |
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