Arginine 132 of cellular retinoic acid-binding protein (type II) is important for binding of retinoic acid.

Cellular retinoic acid-binding protein type II (CRABP-II) is one of two small molecular weight, cytosolic proteins which specifically bind retinoic acid (RA). Crystallographic and site-directed mutagenesis studies of several related proteins have indicated that either one or two conserved amino acid residues, homologous to positions Arg111 and Arg132 of CRABP-II, are important for the binding of the hydrophobic ligand. In this report we have prepared site-directed mutations of these two positions of CRABP-II, Arg111 and Arg132, as well as Lys82 to determine the role of these residues in the binding of RA. Recombinant wild type and mutant CRABP-II proteins were expressed and purified, and the affinity for retinoids was determined by fluorometric titration and binding of 3H-labeled compounds. K82A displayed an identical Kd for all-trans-RA as wild type CRABP-II and the Kd for all-trans-RA of R111A was only slightly higher. On the other hand, the two Arg132 mutants, R132A and R132Q, of CRABP-II demonstrated undetectable binding of all-trans-RA. Taken together these data demonstrate that Arg132 is a critical amino acid residue for the binding of RA by CRABP-II.