A novel sorbitol transport mechanism in cultured renal papillary epithelial cells
- National Heart, Lung, and Blood Institute, Bethesda, MD (USA)
The renal papillary epithelial cell line, GRB-PAP1, accumulates sorbitol when grown in a hypertonic (500 mosmol/kgH2O) bathing medium. When the cells are returned to a 300 mosmol/kgH2O medium, they lose their sorbitol rapidly to the bath. Sorbitol movement across the membranes of these cells was investigated by studying the uptake of radioactive sorbitol and related compounds. Sorbitol uptake increased 71-fold when cells grown in 500 mosmol/kgH2O medium were exposed to a 300 mosmol/kgH2O test solution. The magnitude of the permeability increase was proportional to the size of the change in the osmolality of the bathing medium and not the absolute osmolality. Sorbitol uptake was a linear function of medium sorbitol concentration with no sign of saturation at sorbitol concentrations up to 315 mM. Although the permeability of other polyols was increased when the osmolality was reduced, competition between sorbitol and related sugars and polyols could not be demonstrated. Both the increased sorbitol uptake after a decrease in medium osmolality and the decrease to control permeability after return to the original osmolality were complete within 30 s. A wide variety of transport inhibitors and ion substitutions failed to alter the magnitude of the sorbitol permeability increase. The most effective inhibitor was quinidine, 1 mM reducing sorbitol uptake by 73%. The sorbitol permeability increase could also be blocked by reducing the temperature to 0 degrees C. Nonspecific uptake of sorbitol, such as endocytosis, was shown to be of only minor significance. The large increase in sorbitol permeability and subsequent sorbitol efflux enables these cells to withstand large decreases in osmolality without excessive swelling and consequent damage. A similar compensatory mechanism may operate in vivo in the renal papilla during the onset of diuresis.
- OSTI ID:
- 7244434
- Journal Information:
- American Journal of Physiology; (USA), Vol. 257; ISSN 0002-9513
- Country of Publication:
- United States
- Language:
- English
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SORBITOL
MEMBRANE TRANSPORT
CARBON ISOTOPES
CELL MEMBRANES
DIURETICS
EPITHELIUM
ISOTOPE DILUTION
KIDNEYS
PERMEABILITY
ANIMAL TISSUES
BODY
CARBOHYDRATES
CELL CONSTITUENTS
DRUGS
ISOTOPE APPLICATIONS
ISOTOPES
MEMBRANES
MONOSACCHARIDES
ORGANIC COMPOUNDS
ORGANS
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TISSUES
TRACER TECHNIQUES
551001* - Physiological Systems- Tracer Techniques