Cellular retinaldehyde-binding protein (CRALBP) is an essential protein in the human visual cycle without a known three-dimensional structure. Previous studies associate retinal pathologies to specific mutations in the CRALBP protein. Here we use homology modeling and molecular dynamics methods to investigate the structural mechanisms by which CRALBP functions in the visual cycle. We have constructed two conformations of CRALBP representing two states in the process of ligand association and dissociation. Notably, our homology models map the pathology-associated mutations either directly in or adjacent to the putative ligand-binding cavity. Furthermore, six novel residues have been identified to be crucial for the hinge movement of the lipid-exchange loop in CRALBP. We conclude that the binding and release of retinoid involve large conformational changes in the lipid-exchange loop at the entrance of the ligand-binding cavity.
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Article Synopsis
- Cellular retinaldehyde-binding protein (CRALBP) is crucial for the production and delivery of 11-cis-retinaldehyde to photoreceptors in the eye, specifically found in retinal pigment epithelium (RPE) and Müller glia (MG).
- Research using knockout mice for RPE and MG shows that RPE-CRALBP is vital for efficient visual chromophore regeneration, with RPE-KO mice exhibiting a 15-fold slower regeneration rate and delayed dark adaptation.
- Additionally, the study reveals significant impairment in cone pigment regeneration in RPE-KO mice, indicating a stronger dependence of cone photoreceptors on RPE compared to MG, emphasizing the need to target RPE cells for CRALBP
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