Upregulation of inositol transport mediates inositol accumulation in hyperosmolar brain cells

Attempts to understand brain volume regulation have been greatly hampered by the structural complexity of the mammalian central nervous system, indicating a need for the investigation of cultured brain cell lines whose behavior reflects that observed in situ. We demonstrate here that rat C6 glioma cells exhibit a pattern of hyperosmolar volume regulation qualitatively similar to that of the intact brain. Chronic (2-6 days) acclimation of C6 cells to high NaCl media (440 or 590 mosM) resulted in a 46-133 mM increase in cellular inositol, a known major brain osmolyte. C6 cells exposed acutely to 440 mosM medium shrank abruptly and then underwent a complete regulatory volume increase (RVI) within 4 h. Inositol levels began to increase after 10 h of hyperosmolar stress and reached maximal values by 24 h, suggesting that RVI is initially mediated by inorganic ion uptake. [3H]inositol uptake measurements revealed a sevenfold stimulation of phlorizin-inhibitable inositol transport in hyperosmotic cells. The enhancement of inositol transport paralleled the rise in cellular inositol content. Phlorizin reduced inositol accumulation in hyperosmolar cells by 44%. Our studies provide the first demonstration of RVI and organic osmolyte accumulation in a cultured brain cell line.