Low density lipoprotein oxidized in xanthoma tissue induces the formation and infiltration of foam cells.

Human low density lipoprotein (LDL) was incubated with rabbit xanthoma tissue or non-lesional dermis. The xanthoma tissue-modified LDL (x-LDL) was oxidized showing a 12-fold higher level of thiobarbituric acid-reactive substances (TBARSs) and a faster anodic electrophoretic mobility than native LDL (n-LDL). The LDL treated with non-lesional dermis (d-LDL) had a twofold higher TBARS level compared with n-LDL, but the electrophoretic mobility of d-LDL and n-LDL was similar. Cholesterol esterifying activity in mouse peritoneal macrophages, an indicator of LDL uptake, was up-regulated 5-fold and 1.8-fold by incubation with x-LDL and d-LDL, respectively, compared with n-LDL. Macrophages transformed into foam cells in incubation with x-LDL, and intradermal injections of x-LDL induced infiltration of great many foam cells in the normolipemic rabbit dermis. d-LDL had much less effects on the foam cell formation and foam cell infiltration than x-LDL. Cholesterol:protein ratio was higher in x-LDL than in n-LDL and d-LDL, suggesting that x-LDL-induced foam cells accumulated the lipids by incorporating the cholesterol-rich x-LDL. In conclusion, extravasated LDL receives oxidation and contributes to foam cell recruitment in xanthoma lesions. On the other hand, extravasated LDL in non-lesional dermis receives limited oxidation and additional promoting factors are necessary for initiation of xanthoma development.