info:eu-repo/semantics/article
Release of taurine and glutamate contributes to cell volume regulation in human retinal Müller cells: Differences in modulation by calcium
Fecha
2018-09Registro en:
Netti, Vanina Alejandra; Pizzoni, Alejandro; Peréz Domínguez, Martha; Ford, Paula; Pasantes Morales, Herminia; et al.; Release of taurine and glutamate contributes to cell volume regulation in human retinal Müller cells: Differences in modulation by calcium; American Physiological Society; Journal of Neurophysiology; 120; 3; 9-2018; 973-984
0022-3077
CONICET Digital
CONICET
Autor
Netti, Vanina Alejandra
Pizzoni, Alejandro
Peréz Domínguez, Martha
Ford, Paula
Pasantes Morales, Herminia
Ramos Mandujano, Gerardo
Capurro, Claudia Graciela
Resumen
Neuronal activity in the retina generates osmotic gradients that lead to Müller cell swelling, followed by a regulatory volume decrease (RVD) response, partially due to the isoosmotic efflux of KCl and water. However, our previous studies in a human Müller cell line (MIO-M1) demonstrated that an important fraction of RVD may also involve the efflux of organic solutes. We also showed that RVD depends on the swelling-induced Ca 2+ release from intracellular stores. Here we investigate the contribution of taurine (Tau) and glutamate (Glu), the most relevant amino acids in Müller cells, to RVD through the volume-regulated anion channel (VRAC), as well as their Ca 2+ dependency in MIO-M1 cells. Swelling-induced [ 3 H]Tau/ [ 3 H]Glu release was assessed by radiotracer assays and cell volume by fluorescence videomicroscopy. Results showed that cells exhibited an osmosensitive efflux of [ 3 H]Tau and [ 3 H]Glu (Tau > Glu) blunted by VRAC inhibitors 4-(2-butyl-6,7-dichloro-2-cyclopentylindan-1-on-5-yl)-oxybutyric acid and carbenoxolone reducing RVD. Only [ 3 H]Tau efflux was mainly dependent on Ca 2+ release from intracellular stores. RVD was unaffected in a Ca 2+ -free medium, probably due to Ca 2+ -independent Tau and Glu release, but was reduced by chelating intracellular Ca 2+ . The inhibition of phosphatidylinositol-3-kinase reduced [ 3 H]Glu efflux but also the Ca 2+ -insensitive [ 3 H]Tau fraction and decreased RVD, providing evidence of the relevance of this Ca 2+ -independent pathway. We propose that VRAC-mediated Tau and Glu release has a relevant role in RVD in Müller cells. The observed disparities in Ca 2+ influence on amino acid release suggest the presence of VRAC isoforms that may differ in substrate selectivity and regulatory mechanisms, with important implications for retinal physiology. NEW & NOTEWORTHY The mechanisms for cell volume regulation in retinal Müller cells are still unknown. We show that swelling-induced taurine and glutamate release mediated by the volume-regulated anion channel (VRAC) largely contributes the to the regu- latory volume decrease response in a human Müller cell line. Interestingly, the hypotonic-induced efflux of these amino acids exhibits disparities in Ca 2+ -dependent and-independent regulatory mechanisms, which strongly suggests that Müller cells may express different VRAC heteromers formed by the recently discovered leu-cine-rich repeat containing 8 (LRRC8) proteins.