REGULATION OF NITROBENZYLTHIOINOSINE-SENSITIVE ADENOSINE UPTAKE BY CULTURED KIDNEY-CELLS

The effect of nitrobenzylthioinosine (NBTI) on [H-3]adenosine uptake a nd the characterization of the [H-3]NBTI binding in cell (primary cult ures and LLC-PK1 cell line) plasma membrane and brush-border membrane (BBM) vesicles from pig renal cortices and LLC-PK1 cells was analyzed. [H-3]adenosine uptake was strongly inhibited by NBTI in nonconfluent cells, whereas it was totally insensitive to the reagent in BBM. The c oncentration dependence of [H-3]adenosine uptake in BBM was linear, su ggesting simple diffusion. In both cell membranes and BBM high-affinit y [H-3]NBTI binding was observed. [H-3]NBTI binding as well as NBTI-se nsitive [H-3]adenosine uptake was strongly reduced when cells grew to confluence. Both reduction effects were reproduced by treatment of non confluent cells with chlorophenyl adenosine 3',5'-cyclic monophosphate (cAMP), which indicates that the transporter is regulated by a cAMP-d ependent protein kinase. To confirm this hypothesis, the binding of [H -3]NBTI was analyzed in pig kidney BBM obtained in the presence of ort hovanadate and alkaline phosphatase. With respect to control membranes , BBM obtained in the presence of orthovanadate showed a lower maximum number of binding sites (B-max), whereas those obtained in the presen ce of alkaline phosphatase showed a slight increase in B-max for [H-3] NBTI binding. Taken together, these results suggest that the reduction in both [H-3]NBTI binding capacity and NBTI-sensitive [H-3]adenosine uptake takes place by a mechanism that involves phosphorylation of the transporter molecule or of a protein that interacts with it.