Fold conservation and proteolysis in zebrafish IRBP structure: Clues to possible enzymatic function?

Multiple functions for Interphotoreceptor Retinoid-Binding Protein (IRBP) may explain its localization in the retina, vitreous and pineal gland and association with retinitis pigmentosa and myopia. We have been engaged in uncovering the structure-function relationships of this interesting protein long thought to bind visual-cycle retinoids and fatty acids in the subretinal space. Although hydrophobic domains capable of binding such ligands have now been found, we ask what other structural domains might be present that could predict new functions? Interestingly, IRBP possesses a fold similar to C-terminal processing proteases (CTPases) but is missing the PDZ domain. Here we present structural evidence that this fold may have a role in a recently observed autoproteolytic activity of the two-module zebrafish (z) IRBP (Ghosh et al. Exp. Eye Res., 2015). When the structure of Scenedesmus obliquus D1 CTPase (D1P) is superimposed with the first module of zIRBP (z1), the PDZ domain of D1P occupies roughly the same position in the amino acid sequence as the inter-domain tether in z1, between residues P71 and P85. The catalytic triad K397, S372 and E375 of D1P is located at the inter-domain interfacial cleft, similarly as the tetrad K241, S243, D177 and T179 of z1 residues, presumed to have proteolytic function. Packing of two adjacent symmetry-related molecules within the z1 crystal show that the helix α8 penetrates the interfacial cleft underneath the inter-domain tether, forming a simple intermolecular "knot". The full-length zIRBP is cleaved at or immediately after T309, which is located at the end of α8 and is the ninth residue of the second module z2. We propose that the helix α8 within intact zIRBP bends at P301, away from the improbable knotted fold, and positions the cleavage site T309 near the putative catalytic tetrad of the neighboring zIRBP to be proteolytically cleaved. The conservation of this functional catalytic domain suggests that possible physiological roles of IRBP as a hydrolase needs to be considered.