Abstract
Heparan sulfate is thought to regulate the biological activities of several proteins implicated in the pathogenesis of atherosclerosis. While the interactions of heparan sulfate with lipoprotein lipase and various growth factors have been actively studied, little is known of the cellular regulation of heparan sulfate biosynthesis in response to lipid accumulation. We have investigated heparan sulfate biosynthesis during conversion of murine J774 macrophages into lipid-laden foam cells. Such conversion is shown to accelerate the rate of glycosaminoglycan synthesis and the transport of newly synthesized proteoglycans into the medium. Moreover, the structure of heparan sulfate is specifically altered due to an ∼30% increase in the 6-O-sulfation of glucosamine residues within the N-sulfated heparan sulfate domains, whereas the sulfation of chondroitin sulfate remains unaffected. These results suggest a selective effect of foam cell conversion on the biosynthesis of heparan sulfate.
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