Structural basis for the carotenoid binding and transport function of a START domain
- PMID: 36356587
- DOI: 10.1016/j.str.2022.10.007
Structural basis for the carotenoid binding and transport function of a START domain
Abstract
STARD3, a steroidogenic acute regulatory lipid transfer protein, was identified as a key xanthophyll-binding protein in the human retina. STARD3 and its homologs in invertebrates are known to bind and transport carotenoids, but this lacks structural elucidation. Here, we report high-resolution crystal structures of the apo- and zeaxanthin (ZEA)-bound carotenoid-binding protein from silkworm Bombyx mori (BmCBP). Having a STARD3-like fold, BmCBP features novel elements, including the Ω1-loop that, in the apoform, is uniquely fixed on the α4-helix by an R173-D279 salt bridge. We exploit absorbance, Raman and dichroism spectroscopy, and calorimetry to describe how ZEA and BmCBP mutually affect each other in the complex. We identify key carotenoid-binding residues, confirm their roles by ZEA-binding capacity and X-ray structures of BmCBP mutants, and also demonstrate that markedly different carotenoid-binding capacities of BmCBP and human STARD3 stem from differences in the structural organization of their carotenoid-binding cavity.
Keywords: antioxidants; carotenoid transfer; carotenoprotein; circular dichroism of carotenoids; crystallography; etinal degeneration; ligand-induced protein stabilization; lipid-exchange; oligomeric state; oxidative stress.
Copyright © 2022 Elsevier Ltd. All rights reserved.
Conflict of interest statement
Declaration of interests The authors declare that they have no conflicts of interest.
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