Platelet function in patients with familial hypertriglyceridemia : Evidence that platelet reactivity is modulated by apolipoprotein E content of very-low-density lipoprotein particles

We evaluated platelet function in patients with familial hypertriglyceridemia (FHTG). Compared with healthy gender-matched controls, platelets from patients showed lower aggregation (P < .01) and thromboxane formation (P < .01) in response to collagen. Very—low-density lipoprotein (VLDL) particles obtained from the patients inhibited collagen-induced aggregation, whereas VLDL particles from controls had opposite effects. The VLDL-induced effect was regulated by its apolipoprotein E (apoE) content. Indeed, apoE-VLDL—rich fractions caused antiaggregative effects, whereas apoE-VLDL—poor fractions produced a strong proaggregative response. Since we have recently demonstrated that VLDL particles may regulate the activity of platelet low-density lipoprotein (LDL) receptor by a phenomenon of downregulation and desensitization, in this study, we have investigated the effect of prolonged exposure to circulating VLDL levels on the activity of platelet LDL receptor by a double-blind controlled study with gemfibrozil (600 mg twice daily) in 18 subjects with FHTG. Platelets from patients exhibited fewer platelet LDL receptors and 125I-LDL binding was saturable at a lower protein concentration. After 6 months, gemfibrozil therapy versus placebo had a marked lipid-lowering effect, significantly decreased triglycerides (61%), VLDL cholesterol (72%), apoB (28%), and apoE (55%), and increased high-density lipoprotein (44%) and apoA-I (18%). Furthermore, gemfibrozil affected the apoprotein composition of VLDL: total protein increased by 28%, the molar ratio of apoE to apoB decreased 64%, and apoE content decreased 55%. However, no differences in phospholipid, triglyceride, or total cholesterol were detected. Moreover, platelet function was markedly altered by gemfibrozil therapy. Collagen-induced aggregation and thromboxane formation were significantly enhanced (P < .01). The initial antiaggregative pattern of VLDL particles was changed to a significant proaggregative effect (P < .01), and the number of LDL binding sites was markedly upregulated (P < .001). Both receptor upregulation and the change in the aggregative effect of VLDL particles were associated with the reduction of apoE content in VLDL particles (P < .05). The overall results indicate that in the regulation of platelet reactivity in hypertriglyceridemic patients, apoE content of VLDL particles and their interaction with the platelet LDL receptor are involved.