Abstract
Atherosclerotic plaques result from imbalanced lipid metabolism and maladaptive chronic immune responses. Class B scavenger receptors are lipid transporters and regulators of their metabolism. The purpose of this review is to explore recent structural findings of these membrane-associated receptors, with particular focus on their higher-order oligomeric organization and impact on lipid transport. Class B scavenger receptors have evidence for oligomerization, with recent efforts placed on identifying residues and motifs responsible for mediating this process. The first studies correlating scavenger receptor oligomerization to function are described. This review highlights two emerging hypotheses regarding the function of scavenger receptor oligomerization. The first is a hydrophobic channel created by self-association of receptors to promote transport. The second hypothesis suggests that homo-oligomerization stabilizes receptors, prevents internalization and thereby promotes transport indirectly. Novel computational and in vitro experimental techniques with purified receptors are also described.
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