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Upregulation of inositol transport mediates inositol accumulation in hyperosmolar brain cells

1991; American Physical Society; Volume: 260; Issue: 4 Linguagem: Inglês

10.1152/ajpcell.1991.260.4.c784

1522-1563

Kevin Strange, Rebecca Morrison, Charles W. Heilig, S Dipietro, Steven R. Gullans,

Prenatal Substance Exposure Effects

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.