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SUMMARY
Human atherosclerotic plaques are characterized by a massive deposition of lipid within arterial walls. The lipids accumulated are partly oxidized, as assessed by gas chromatography of lipids and their oxidation products. Both advancing age and diabetes mellitus are associated with an increased prevalence and severity of atherosclerosis.
In diabetes mellitus the development of secondary complications appear to be increased by poor glucose control. Indeed, the post-translational modification of protein by non-enzymatic glycation may provide the link between abnormal glucose control and diabetic complications. For atherosclerosis however, the relationship between glucose control and disease is unclear, with evidence available to support and discount such a link. To study protein glycation in a condition associated with a significant level of lipid oxidation products poses several methodological problems, most of which are associated with interference by lipid-derived aldehydes. Many chemical assays of protein glycation monitor aldehydic products common to the chemistry of both protein glycation and lipid oxidation. Studies of protein glycation in human atheroma, obtained at necropsy, are presented which make use of a commercially available boronic acid affinity-based chromatographic assay of glycated protein. The commercially available affinity-based chromatographic assay of glycated protein appears to be free from such interference and may well prove useful in the study of other conditions in which the non-enzymatic glycation of protein is suspected.