The effect of dibutyryl cyclic AMP and butyrate on F9 teratocarcinoma cellular retinoic acid-binding protein activity

Abstract

F9 teratocarcinoma cells contain a cellular retinoic acid-binding protein (CRABP) that may mediate the retinoic acid-induced differentiation of this cell line. Specific [3H]retinoic acid binding to CRABP in F9 stem cell cytosol is protein-dependent, reaches equilibrium within 4 h at 4 degrees C, and yields 643 +/- 105 fmol of [3H]retinoic acid per mg of protein with an apparent dissociation constant of 9.2 +/- 1.1 nM. When F9 stem cells are grown in the presence of either dibutyryl cyclic AMP or sodium butyrate, CRABP activity is stimulated 2-4-fold. The effect of these drugs on CRABP activity is both time and concentration-dependent, resulting in an increase in the number of binding sites for [3H]retinoic acid with no change in their affinity. The new [3H]retinoic acid-binding sites have a sedimentation coefficient of 2 S and are not displaced by excess retinol. When F9 stem cells are grown in the presence of cyclic 8-bromo-AMP or cholera toxin, no increase in CRABP activity is observed. We conclude that the stimulation of CRABP activity by dibutyryl cyclic AMP may result from the action of butyrate. In addition, the stimulation of retinoic acid-induced F9 cell differentiation by cyclic AMP analogs (Strickland, S., Smith, K.K., and Marotti, K.R. (1980) Cell 21, 347-355) and the inhibition of this differentiation by butyrate (Levine R. A., Campisi, J., Wang, S.-Y., and Gudas, L. J. (1984) Dev. Biol. 105, 443-450) are not correlated with increases or decreases, respectively, in the level of CRABP activity.