Carrier-dependent and carrier-independent uptake of myo-inositol in cultured retinal pigment epithelial cells: activation by heat and concentration

Abstract

Transport of myo-inositol (MI) was studied in primary cultures of bovine retinal pigment epithelial (RPE) cells. At low external concentrations (0.01–1 mM), uptake appeared to follow saturation kinetics, although the reciprocal forms of the rate equations did not fit either Lineweaver–Burk or Eadie–Hofstee plots. Increasing external concentrations dramatically changed the pattern of MI entry. At two to three orders of magnitude higher than physiological concentrations, a second saturation occurred (pseudo saturation). Cells incubated with 20 μM [3H]MI for 60 min had a ratio of intracellular to extracellular radioactivity ≥ 8, indicating active transport.MI transport reduction by Na+ replacement or inhibitors (phlorizin, ouabain, amiloride, KSCN, iodoacetamide, MI analogues) was greater when RPE cells were incubated with low (20–400 μM) than with high (10–20 mM) MI concentrations. Cells incubated with 20 μM MI at 53 or 65 °C showed increased transport (up to 560%) compared with cells at 22 °C. The effect on MI uptake (20 μM) of Na+ replacement also was reduced at 53 °C. The uptake of MI involved at least two transport systems. The major mechanism at low external MI concentrations (physiological levels) was a carrier-mediated active process. At high external MI levels, uptake occurred by a diffusion process. A lipotropic effect of MI may be responsible for this increased rate of diffusion.