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CD1d is an MHC class I-like membrane glycoprotein that presents lipid Ags to NKT cells. Despite intensive biochemical, genetic, and structural studies, the endogenous lipids associated with CD1d remain poorly defined because of the biochemical challenges posed by their hydrophobic nature. In this study, we report the generation of a protease-cleavable CD1d variant with a similar trafficking pattern to wild-type CD1d that can be purified in the absence of detergent and allows the characterization of the naturally associated lipids. In addition, we used soluble variants of CD1d that are secreted or retained in the endoplasmic reticulum (ER) to survey their acquired lipids. By using multiple mass spectrometry methods, we found that CD1d retained in the ER is predominantly loaded with the most abundant phospholipid in the cell, phosphatidyl choline, while the protease cleavable version of CD1d contains bound sphingomyelin and lysophospholipids in addition to phosphatidyl choline. The secreted soluble version of CD1d, in contrast, lacks detectable phosphatidyl choline and the only detectable associated lipid is sphingomyelin. The data suggest that, in the absence of infection or stress, CD1d molecules survey the ER, the secretory pathway, and the endocytic pathway, and accumulate the most abundantly available lipids present in these compartments.

Natural Lipid Ligands Associated with Human CD1d Targeted to Different Subcellular Compartments