Chang Y. Kim scite author profile

Uptake of myo-inositol by astrocytes in hypertonic medium (440 mosm/kg H2O) was increased near 3-fold after incubation for 24 hours, which continued for 72 hours, as compared with the uptake by cells cultured in isotonic medium (38 nmoles/mg protein). myo-Inositol uptake by astrocytes cultured in hypotonic medium (180 mosm/kg H2O) for periods up to 72 hours was reduced by 74% to 8 to 10 nmoles/mg protein. Astrocytes incubated in either hypotonic or hypertonic medium for 24 hours and then placed in isotonic medium reversed the initial down- or up-regulation of uptake. Activation of chronic RVD and RVI correlates with regulation of myo-inositol uptake. A 30 to 40 mosm/kg H2O deviation from physiological osmolality can influence myo-inositol homeostasis. The intracellular content of myo-inositol in astrocytes in isotonic medium was 25.6 +/- 1.3 micrograms/mg protein (28 mM). This level of myo-inositol is sufficient for this compound to function as an osmoregulator in primary astrocytes and it is likely to contribute to the maintenance of brain volume.

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Effect of Dibutyryl Cyclic AMP on the Kinetics of myo‐Inositol Transport in Cultured Astrocytes

Isaacks

Bender

Reuben

et al. 1999

Journal of Neurochemistry

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Dibutyryl cyclic AMP (dBcAMP) is known to induce maturation and differentiation in astrocytes. As myo-inositol is an important osmoregulator in astrocytes, we examined the effects of maturation and biochemical differentiation on the kinetic properties of myo-inositol transport. Treatment of astrocytes with dBcAMP significantly decreased the V max of myo-inositol uptake, but the effect on K m was not significant. The myo-inositol content of astrocytes was significantly decreased in cells treated for 5 days with dBcAMP as compared with untreated controls. Maximum suppression of myo-inositol uptake occurred 7 days after exposure of astrocytes to dBcAMP; this was gradually reversible when dBcAMP was removed from the medium. After exposure to hypertonic medium for 6 h, mRNA expression of the myo-inositol co-transporter was diminished by ϳ36% in astrocytes treated with dBcAMP as compared with untreated cells. It appears that myo-inositol transporters in astrocytes treated with dBcAMP are either decreased in number or inactivated during maturation and differentiation, suggesting that the stage of differentiation and biochemical maturation of astrocytes is an important factor in osmoregulation.

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Effect of osmolality and anion channel inhibitors on myo-inositol efflux in cultured astrocytes

et al. 1999

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Recent studies have shown that swelling-activated myo-inositol efflux from rat C6 glioma cells is mediated by a single transport mechanism and most likely by a volume-sensitive anion channel. In those studies, cells were acclimated in hypertonic medium and then swollen by returning the cells to isotonic medium. In the present study, myo-inositol efflux was determined in primary cultures of astrocytes by first incubating the cells in isotonic radiolabelled medium for 2 hr and then placing the cells in either unlabelled isotonic, hypertonic, or hypotonic medium and measuring release with time. Computer analyses of efflux data indicated a two-component system of myo-inositol efflux. The rate constants for the initial fast component for isotonic and hypotonic cells were 0.0398 +/- 0. 005 and 0.0631 +/- 0.0288 min(-1), respectively. The efflux rates of the slow component, while quite small, were severalfold greater with increasing hypotonic media as compared to the cells in isotonic medium. Several anion membrane transport inhibitors were tested to explore the swelling activated efflux mechanism of myo-inositol. Furosemide (0.5 mM), 1,9 dideoxyforskolin (0.1 mM), NPPB (0.1 mM), niflumic acid (0.5 mM), and SITS (0.5 mM) blocked the fast component of myo-inositol efflux by 17, 49, 55, 75, and 93%, respectively. Our results suggest that the fast component of myo-inositol efflux in primary cultures of astrocytes is mediated by anion transporters or channels and that myo-inositol flux contributes to cell volume regulation in cultures of primary astrocytes.

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Effect of osmolality and anion channel inhibitors on myo‐inositol efflux in cultured astrocytes

Isaacks¹,

Bender²,

Kim³

et al. 1999

J. Neurosci. Res.

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Chang Y. Kim

Osmotic regulation ofmyo-inositol uptake in primary astrocyte cultures

Effect of Dibutyryl Cyclic AMP on the Kinetics of myo‐Inositol Transport in Cultured Astrocytes

Effect of osmolality and anion channel inhibitors on myo-inositol efflux in cultured astrocytes

Effect of osmolality and anion channel inhibitors on myo‐inositol efflux in cultured astrocytes

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