Abstract
Cobalamin (Cbl; vitamin B12) is an essential micronutrient synthesized only by bacteria. Mammals have developed a sophisticated uptake system to capture the vitamin from the diet. Cbl transport is mediated by three transport proteins: transcobalamin, intrinsic factor, and haptocorrin (HC). All three proteins have a similar overall structure but a different selectivity for corrinoids. Here, we present the crystal structures of human HC in complex with cyanocobalamin and cobinamide at 2.35 and 3.0 Å resolution, respectively. The structures reveal that many of the interactions with the corrin ring are conserved among the human Cbl transporters. However, the non-conserved residues Asn-120, Arg-357, and Asn-373 form distinct interactions allowing for stabilization of corrinoids other than Cbl. A central binding motif forms interactions with the e- and f-side chains of the corrin ring and is conserved in corrinoid-binding proteins of other species. In addition, the α- and β-domains of HC form several unique interdomain contacts and have a higher shape complementarity than those of intrinsic factor and transcobalamin. The stabilization of ligands by all of these interactions is reflected in higher melting temperatures of the protein-ligand complexes. Our structural analysis offers fundamental insights into the unique binding behavior of HC and completes the picture of Cbl interaction with its three transport proteins.
Highlights
Haptocorrin (HC) is a cobalamin (Cbl) transport protein known to recognize a wide range of corrinoids
It is well known that HC is the least specific Cbl transport protein, binding to a diversity of Cbl derivatives and analogs
Our studies provide a rational explanation for the high affinity binding of HC to a variety of corrinoids
Summary
Haptocorrin (HC) is a cobalamin (Cbl) transport protein known to recognize a wide range of corrinoids. Significance: Our findings complete the molecular details for corrinoid recognition by human Cbl transport proteins. The structures reveal that many of the interactions with the corrin ring are conserved among the human Cbl transporters. Our structural analysis offers fundamental insights into the unique binding behavior of HC and completes the picture of Cbl interaction with its three transport proteins. Cbl is a very complex metalorganic compound [4] It consists of a corrin ring with seven amide side chains (a–g), coordinating a central cobalt ion through four nitrogen atoms. Three proteins with similar structure mediate transport and distribution of Cbl in the human body by capturing the ligand with very high affinity (Kd ϳ 6 fM) [5, 6]: intrinsic factor (IF), transcobalamin (TC), and haptocorrin (HC).
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