Abstract

Theophylline, when added to the incubation medium of everted duodenal sacs prepared from rats on a low-calcium diet, was found to inhibit transcellular Ca transport in a concentration-dependent manner, with an inhibitor constant (Ki) of 10.8 mM theophylline. Neither the rate of cellular Ca entry, as evaluated with the aid of brush-border membrane vesicles, nor the rate of cellular Ca extrusion, assessed by measuring ATP-dependent Ca uptake of basolateral membrane vesicles, was significantly altered by the addition of theophylline to the uptake media. However, Ca-binding by calcium-binding protein (CaBP; calbindin D9k), Mr approximately 8,800) was depressed by theophylline in a concentration-dependent manner, with Ki = 3.2 mM theophylline. Theophylline had no effect on Ca binding by calmodulin and the theophylline-induced inhibition of transcellular calcium transport was independent of adenosine 3',5'-cyclic monophosphate levels. Theophylline also had no effect on paracellular Ca movement. Since the theophylline-induced inhibition of Ca-binding by CaBP paralleled the inhibition of transcellular Ca transport, it is concluded that CaBP functions in transcellular Ca transport via its ability to bind Ca.