Studies of the type I cellular retinoic acid-binding protein mutants and their biological activities

We have mutated the type I cellular retinoic acid binding protein (CRABP-I) , individually at the Arg131 (into Ala) and the Tyr 133 (into Phe) residues which have been predicted to make direct contact with retinoic acid (RA) b ased upon previous structural studies. The RA-binding affinities of these m utants are examined and their biological effects on RA induction of reporte r genes are determined. The R131A mutation drastically affects its ligand-b inding property, but the Y133F mutation has little effect. By using an RA-i nducible reporter, it is found that the wild type CRABP-I exerts biphasic e ffects on RA induction of the reporter. The early (at 12 h) effect is to en hance RA induction, whereas the delayed (at 24 h) effect is to suppress RA induction. In consistence with their RA binding property, the R 131A mutant loses both its early and delayed biological activities, whereas the Y133F mutant remains as effective as the wild type. It is concluded that CRABP-I over-expression exerts biphasic effects on RA-mediated gene expression, and that Arg131, but not Tyr 133, is essential for a high RA-binding affinity of this protein as well as its biological activity.