Fenofibrate induces a selective increase of protein-bound homocysteine in rodents: a PPARalpha-mediated effect

Elevated levels of plasma homocysteine (Hcy) are associated with increased risk of cardiovascular disease though it is uncertain whether increases in Hcy represent a cause or a consequence of the disease process. Plasma Hcy exists in reduced, free oxidized, and protein-bound forms, that together comprise total Hcy (tHcy). Free reduced Hcy is thought to be the atherogenic, though minor, sub-fraction of tHcy. Recent reports have indicated that fenofibrate and other fibrates are capable of moderately increasing plasma tHcy. As many of the effects of fibrates are known to be mediated by the nuclear receptor PPARalpha, we determined the effect of fenofibrate on tHcy in PPARalpha-deficient mice. We further examined the effect of fenofibrate and fenofibrate plus folate supplementation on total as well as protein-bound Hcy in rats. Fenofibrate significantly increased serum tHcy in wild-type mice but not in PPARalpha deficient mice. In rats, fenofibrate increased serum tHcy by 69%, while the co-administration of folate with fenofibrate increased tHcy by only 7%. In spite of the above increase in tHcy in rats, only the protein-bound fraction of Hcy was increased. In a further study, fenofibrate also induced a significant increase in tHcy, while in spite of this, ex vivo peroxidation of VLDL+LDL was beneficially lowered and the lag time prolonged. In summary, fenofibrate increases serum tHcy in rodents in a PPARalpha-dependent manner. The increase in rats is solely due to protein-bound Hcy as atherogenic, reduced Hcy was unchanged. While awaiting corroboration in human, our results suggest that the extent and mechanism of the increase in total Hcy in patients treated with fenofibrate should not a priori be associated with relevant risk.     

Oxidized low-density lipoprotein (oxLDL) plasma levels and oxLDL to LDL ratio — Are they real oxidative stress markers in dialyzed patients?

AimsDyslipidemia and oxidative stress are commonly present in patients during maintenance dialysis treatment. However, the significance of oxidized LDL (oxLDL) as a marker of oxidative stress in uremia is still unresolved. The aim of this study was to establish the role of oxLDL and oxLDL/LDL ratio as markers of lipoprotein abnormalities and oxidative stress in the dialyzed patients.Main methodsPlasma oxLDL level was measured by ELISA, and oxLDL/LDL ratio was calculated in 106 dialyzed patients and 20 controls. The linkages between oxLDL, oxLDL/LDL ratio and lipid profile and oxidative stress markers malondialdehyde (MDA) and Cu/Zn superoxide dismutase (Cu/Zn SOD) levels were also analyzed.Key findingsOxLDL levels and oxLDL/LDL ratio were similar in hemodialyzed patients and controls, whereas these parameters were lower in peritoneally dialyzed patients when compared to healthy individuals. In contrast, both MDA and Cu/Zn SOD levels were significantly higher in uremics than in controls. oxLDL and oxLDL/LDL ratio positively correlated with lipid profile (except of HDL), whereas there were no positive associations between these parameters and both MDA and Cu/Zn SOD. Multiple regression analysis confirmed that increased oxLDL/HDL and TC/HDL ratios and total cholesterol levels are the parameters which independently predicted oxLDL in dialyzed patients. In the case of oxLDL/LDL ratio, the independent variables were oxLDL/HDL ratio, total cholesterol and HDL levels.SignificanceoxLDL levels and oxLDL/LDL ratio seem to be the markers of lipoprotein abnormalities rather than the markers of oxidative stress in the population of dialyzed patients.     

A fibre cocktail of fenugreek, guar gum and wheat bran reduces oxidative modification of LDL induced by an atherogenic diet in rats

Background LDL (low-density lipoprotein) oxidation is a key trigger factor for the development of atherosclerosis. Relatively few studies exist on the impact of dietary fibre on LDL oxidation. This study was undertaken to evaluate the influence of a novel fibre mix of fenugreek seed powder, guar gum and wheat bran (Fibernat) on LDL oxidation induced by an atherogenic diet. Method Male Wistar albino rats were administered one of the following diets: (1) a control diet that was fibre-free (Group I); (2) an atherogenic diet containing 1.5% cholesterol and 0.1% cholic acid (Group II) or (3) an atherogenic diet supplemented with Fibernat (Group III). Peroxidative changes in low-density lipoprotein (LDL) and the oxidative susceptibility of LDL and the LDL + VLDL (very low-density lipoprotein) fraction were determined. As a corollary to the oxidative modification theory, the titer of autoantibodies to oxidised LDL (oxLDL) was determined at various time points of the study. In addition, plasma homocysteine (tHcy) and lipoprotein (Lp (a)), apolipoprotein (apoB), cholesterol, triglyceride, phospholipid and α-tocopherol content of LDL were determined. Results A decrease in malonaldehyde (MDA) content (p < 0.05) and relative electrophoretic mobility (REM) of LDL was observed in the group III rats as compared to the group II rats. An increase in lag time to oxidation (p < 0.01) and decrease in maximum oxidation (p < 0.01) and oxidation rate (p < 0.01) were observed in the LDL + VLDL fraction of group III rats. In group II rats, formation of autoantibodies to oxLDL occurred at an earlier time point and at levels greater than in the group III rats. Fibernat, had a sparing effect on LDL α-tocopherol, which was about 51% higher in the group III rats than in the group II rats; apo B content of LDL was reduced by 37.6% in group III rats. LDL of group III rats displayed a decrease in free and ester cholesterol (p < 0.01) as compared to that of group II. A decrease in plasma homocysteine (p < 0.01) and an increase in GSH (p < 0.05) were also observed in group III rats when compared with that of group II. Conclusion Fibernat administration appears to combat oxidative stress resulting in a trend to lower oxidative modification of LDL. In addition, the cholesterol and apo B content of LDL were reduced significantly with a sparing effect on LDL α-tocopherol. This novel fibre preparation could be an effective diet therapy and therefore needs further investigation.     

Oxidized LDL up-regulates the ascorbic acid transporter SVCT2 in endothelial cells

Endothelial dysfunction is an early manifestation of atherosclerosis caused in part by oxidized LDL (oxLDL). Since vitamin C, or ascorbic acid, prevents several aspects of endothelial dysfunction, the effects of oxLDL on oxidative stress and regulation of the ascorbate transporter, SVCT2, were studied in cultured EA.hy926 endothelial cells. Cells cultured for 18 h with 0.2 mg/ml oxLDL showed increased lipid peroxidation that was prevented by a single addition of 0.25 mM ascorbate at the beginning of the incubation. This protection caused a decrease in intracellular ascorbate, but no change in the cell content of GSH. In the absence of ascorbate, oxLDL increased SVCT2 protein and function during 18 h in culture. Although culture of the cells with ascorbate did not affect SVCT2 protein expression, the oxLDL-induced increase in SVCT2 protein expression was prevented by ascorbate. These results suggest that up-regulation of endothelial cell SVCT2 expression and function may help to maintain intracellular ascorbate during oxLDL-induced oxidative stress, and that ascorbate in turn can prevent this effect.     

Proteomic characterization of oxidative dysfunction in human umbilical vein endothelial cells (HUVEC) induced by exposure to oxidized LDL

The oxidative modification of low-density lipoprotein (LDL) and subsequent alteration of endothelial cell function are generally accepted as an important early event in the pathogenesis of atherosclerosis. To understand the mechanism by which oxidized LDL (oxLDL) causes dysfunction in endothelial cells, human umbilical vein endothelial cells (HUVEC) were exposed to oxLDL at a concentration that induces cellular dysfunction, and proteomic analysis was carried out, together with the analysis of cellular lipid peroxidation products. Time-dependent accumulation of 7-ketocholesterol and the progression of oxidative modification of peroxiredoxin 2 were observed, together with the suppression of cell proliferation. Proteomic analysis using two-dimensional gel electrophoresis (2-D gel) revealed that nucleophosmin, stathmin, and nucleolin were differentially expressed after exposure to oxLDL. Both 2-D gel and western blot analyses revealed that (1) nucleophosmin was dephosphorylated in a time-dependent manner; (2) stathmin was transiently phosphorylated at 6 h, and the unphosphorylated form was continuously down-regulated; and (3) nucleolin was identified as a 20-kDa fragment and a 76-kDa form, which were down-regulated. These observations suggest that the exposure of HUVEC to oxLDL results in the suppression of cell proliferation, which is ascribed to protein modification and/or altered expression of nucleophosmin, stathmin, and nucleolin under these oxidative stress conditions.     

oxLDL facilitates flow-induced realignment of aortic endothelial cells

Alignment of vascular endothelial cells (ECs) in the direction of the flow is considered a key factor in maintaining endothelial integrity in an active hemodynamic environment. Our recent studies showed that exposure to oxidized LDL (oxLDL), one of the major proatherogenic lipoproteins, significantly increases the stiffness of human aortic ECs, suggesting that oxLDL may have a significant impact on the sensitivity of ECs to mechanical stimuli. In this study, we show that oxLDL strongly enhances the ability of ECs to realign in the direction of the flow and facilitates the formation of F-actin stress fibers under static and flow conditions. The impact of oxLDL on the flow-induced realignment is observed on whole cell and single-fiber levels. We also show that, similar to the effect of oxLDL on endothelial stiffness, the impact of oxLDL on flow-induced realignment can be simulated by methyl-beta-cyclodextrin-induced cholesterol depletion, supporting the hypothesis that oxLDL acts as cholesterol acceptor, rather than cholesterol donor, for ECs. Finally, we propose that oxLDL/cholesterol depletion-induced sensitization of ECs to flow may be a result of an increase in cellular stiffness and a respective increase in membrane-cytoskeleton tension.     

Oxidized Low-Density Lipoprotein Induces Neuronal Death

Low-density lipoprotein (LDL) exists within the brain and is highly vulnerable to oxidative modifications. Once formed, oxidized LDL (oxLDL) is capable of eliciting cytotoxicity, differentiation, and inflammation in nonneuronal cells. Although oxLDL has been studied primarily for its role in the development of atherosclerosis, recent studies have identified a possible role for it in neurological disorders associated with oxidative stress. In the present study application of oxLDL, but not LDL, resulted in a dose- and time-dependent death of cultured rat embryonic neurons. Studies using pharmacological inhibitors implicate the involvement of calcium, reactive oxygen species, and caspases in oxLDL-induced neuronal death. Coapplication of oxLDL with either amyloid beta-peptide or glutamate, agents that enhance oxidative stress, resulted in increased neuronal death. Taken together, these data demonstrate that oxLDL induces neuronal death and implicate a possible role for oxLDL in conditions associated with increased levels of reactive oxygen species, including Alzheimer's disease.     

miR-133b靶向抑制SGTB对oxLDL诱导的血管内皮细胞损伤的影响*

目的:探讨微小RNA-133b(miR-133b)靶向抑制富含谷氨酰胺三十四肽重复序列的小蛋白质分子(SGTB)对氧化低密度脂蛋白(oxLDL)诱导的血管内皮细胞损伤的影响。方法:采用100 μg/ml的oxLDL诱导人脐静脉血管内皮细胞(EVC-304)24 h构建血管内皮细胞损伤模型。将EVC-304细胞分为对照组、oxLDL组(oxLDL处理)、oxLDL+miR-NC组(转染20 nmol/L miR-NC+oxLDL处理)、oxLDL+miR-133b组(转染20 nmol/L miR-133b mimics+oxLDL处理)、oxLDL+si-NC组(转染20 nmol/L si-NC+oxLDL处理)、oxLDL+si-SGTB组(转染20 nmol/L si-SGTB+oxLDL处理)、oxLDL+miR-133b+pcDNA组(转染20 nmol/L si-SGTB和pcDNA+oxLDL处理)、oxLDL+miR-133b+pcDNA-SGTB组(转染20 nmol/L si-SGTB和pcDNA-SGTB处理)。实时荧光定量PCR(qRT-PCR)和蛋白质印记(Western blot)检测miR-133b和SGTB的表达水平;流式细胞术检测细胞凋亡;试剂盒检测丙二醛(MDA)含量、超氧化物歧化酶(SOD)和谷胱甘肽过氧化物酶(GSH-Px)的活性;Western blot检测B细胞淋巴瘤/白血病-2(Bcl-2)和Bcl-2相关X蛋白(Bax)的表达水平。双荧光素酶报告基因实验和Western blot验证miR-133b对SGTB的靶向调控关系。结果:与对照组比较,oxLDL诱导后EVC-304细胞miR-133b、Bcl-2的表达水平显著降低(P＜0.05),SGTB、Bax的表达水平显著升高(P＜0.05),MDA含量和细胞凋亡率显著增加(P＜0.05),SOD和GSH-Px活性显著降低(P＜0.05)。过表达miR-133b或干扰SGTB均可抑制oxLDL诱导的EVC-304细胞凋亡和氧化应激损伤(P＜ 0.05)。miR-133b与SGTB直接结合,过表达miR-133b显著下调SGTB表达(P＜0.05),抑制miR-133b显著上调SGTB表达(P＜0.05)。过表达SGTB可逆转过表达miR-133b对oxLDL诱导的血管内皮细胞损伤的影响(P＜0.05)。结论:miR-133b通过靶向抑制SGTB的表达,可减轻oxLDL诱导的血管内皮细胞氧化应激损伤和细胞凋亡。     

LDL oxidation by arterial wall macrophages depends on the oxidative status in the lipoprotein and in the cells: Role of prooxidants vs. antioxidants

Oxidized LDL is highly atherogenic as it stimulates macrophage cholesterol accumulation and foam cell formation, it is cytotoxic to cells of the arterial wall and it stimulates inflammatory and thrombotic processes. LDL oxidation can lead to its subsequent aggregation, which further increases cellular cholesterol accumulation.All major cells in the arterial wall including endothelial cells, smooth muscle cells and monocyte derived macrophages can oxidize LDL. Macrophage-mediated oxidation of LDL is probably a hallmark in early atherosclerosis, and it depends on the oxidative state of the LDL and that of the macrophages. The LDL oxidative state is elevated by increased ratio of poly/mono unsaturated fatty acids, and it is reduced by elevation of LDL-associated antioxidants such as vitamin E, -carotene, lycopene, and polyphenolic flavonoids.The macrophage oxidative state depends on the balance between cellular NADPH -oxidase and the glutathione system. LDL-associated polyphenolic flavonoids which inhibit its oxidation, can also reduce macrophage oxidative state, and subsequently the cell-mediated oxidation of LDL. Oxidation of the macrophage lipids, which occurs under oxidative stress, can lead to cell-mediated oxidation of LDL even in the absence of transition metal ions ,and may be operable in vivo.Finally, elimination of Ox-LDL from extracellular spaces, after it was formed under excessive oxidative stress, can possibly be achieved by the hydrolytic action of HDL-associated paraoxonase on lipoprotein's lipid peroxides. The present review article summarizes the above issues with an emphasis on our own data.     

Oxidized low density lipoprotein displaces endothelial nitric-oxide synthase (eNOS) from plasmalemmal caveolae and impairs eNOS activation.

Hypercholesterolemia-induced vascular disease and atherosclerosis are characterized by a decrease in the bioavailability of endothelium-derived nitric oxide. Endothelial nitric-oxide synthase (eNOS) associates with caveolae and is directly regulated by the caveola protein, caveolin. In the present study, we examined the effects of oxidized low density lipoprotein (oxLDL) on the subcellular location of eNOS, on eNOS activation, and on caveola cholesterol in endothelial cells. We found that treatment with 10 microgram/ml oxLDL for 60 min caused greater than 90% of eNOS and caveolin to leave caveolae. Treatment with oxLDL also inhibited acetylcholine-induced activation of eNOS but not prostacyclin production. oxLDL did not affect total cellular eNOS abundance. Oxidized LDL also did not affect the palmitoylation, myristoylation or phosphorylation of eNOS. Oxidized LDL, but not native LDL, or HDL depleted caveolae of cholesterol by serving as an acceptor for cholesterol. Cyclodextrin also depleted caveolae of cholesterol and caused eNOS and caveolin to translocate from caveolae. Furthermore, removal of oxLDL allowed eNOS and caveolin to return to caveolae. We conclude that oxLDL-induced depletion of caveola cholesterol causes eNOS to leave caveolae and inhibits acetylcholine-induced activation of the enzyme. This process may be an important mechanism in the early pathogenesis of atherosclerosis.     

Evaluation of low density lipoprotein oxidation in a course of hypothyroidism

INTRODUCTION: The aim of this study was to evaluate the influence of hypothyroidism on oxidative modification of low density lipoprotein (LDL). MATERIAL AND METHODS: 24 patients with overt hypothyroidism and 10 patients with mild hypothyroidism were enrolled to the study. The control group consisted of 24 healthy subjects with normal serum TSH. Plasma level of oxidized LDL (oxLDL) and serum level of antibodies against oxidized LDL (anti-oxLDL) determined lipoprotein oxidation. RESULTS: Significantly increased plasma oxLDL levels were found in patients with overt hypothyroidism in comparison to patients with mild hypothyroidism and control group. Anti-oxLDL levels in patients with overt or mild hypothyroidism and in the control group showed no significant differences. OxLDL plasma levels in patients with hypothyroidism inversely correlated with FT(4) levels and positively correlated with TSH, total cholesterol, LDL cholesterol and triglycerides levels. CONCLUSIONS: The presented study indicates increased lipoprotein oxidation in patients with hypothyroidism which depends on the degree of hypothyroidism and changes in lipid profile. Elevated cholesterol and triglycerides levels are the factors increasing lipoprotein oxidation. Plasma oxLDL levels may constitute a useful marker indicating the risk for atherosclerosis in hypothyroidism.     

Evaluation of endothelial dysfunction, lipid metabolism in women with polycystic ovary syndrome: relationship of paraoxonase 1 activity, malondialdehyde levels, low-density lipoprotein subfractions, and endothelial dysfunction

The aim of this study was to assess relationship of insulin resistance, oxidant-antioxidant status, endothelial dysfunction, lipid metabolism, and their contribution to the risks of cardiovascular disease in women with polycystic ovary syndrome (PCOS). Forty-five women with PCOS and 17 healthy women were included in this study. Nitric oxide (NO), endothelin-1 (ET-1), malondialdehyde (MDA), Apo A1, Apo B, high-density lipoprotein cholesterol (HDL-C), low-density lipoprotein cholesterol (LDL-C), total cholesterol (TC), triglyceride, small, dense LDL cholesterol (sdLDL-C), large buoyant LDL cholesterol (LbLDL-C) levels, and paraoxonase 1 (PON1) activity were measured in serum/plasma obtained from study groups. Insulin resistance [homeostasis model assessment (HOMA) index] and serum sex hormone binding globulin (SHBG), total testosterone (tT), free testosterone (fT), androstenedione, and dehydroepiandrosteronsulfate (DHEAS) levels were also evaluated. Significantly decreased SHBG, NO, HDL-C levels, and PON1 activities, but increased tT, fT, androstenedione, DHEAS, HOMA index, MDA, ET-1, LDL-C, sdLDL-C, and LbLDL-C values were found in PCOS patients compared with those of controls. There was a positive correlation between MDA and fT levels; and a negative correlation between PON1 activity and fT. Our data show that insulin resistance, dyslipidemia, endothelial dysfunction, and oxidative stress might contribute to the excess risk of cardiovascular disease reported in PCOS patients.     

Proteomic characterization of oxidative dysfunction in human umbilical vein endothelial cells (HUVEC) induced by exposure to oxidized LDL

The oxidative modification of low-density lipoprotein (LDL) and subsequent alteration of endothelial cell function are generally accepted as an important early event in the pathogenesis of atherosclerosis. To understand the mechanism by which oxidized LDL (oxLDL) causes dysfunction in endothelial cells, human umbilical vein endothelial cells (HUVEC) were exposed to oxLDL at a concentration that induces cellular dysfunction, and proteomic analysis was carried out, together with the analysis of cellular lipid peroxidation products. Time-dependent accumulation of 7-ketocholesterol and the progression of oxidative modification of peroxiredoxin 2 were observed, together with the suppression of cell proliferation. Proteomic analysis using two-dimensional gel electrophoresis (2-D gel) revealed that nucleophosmin, stathmin, and nucleolin were differentially expressed after exposure to oxLDL. Both 2-D gel and western blot analyses revealed that (1) nucleophosmin was dephosphorylated in a time-dependent manner; (2) stathmin was transiently phosphorylated at 6 h, and the unphosphorylated form was continuously down-regulated; and (3) nucleolin was identified as a 20-kDa fragment and a 76-kDa form, which were down-regulated. These observations suggest that the exposure of HUVEC to oxLDL results in the suppression of cell proliferation, which is ascribed to protein modification and/or altered expression of nucleophosmin, stathmin, and nucleolin under these oxidative stress conditions.     

Beneficial Effect of Fenofibrate and Silymarin on Hepatic Steatosis and Gene Expression of Lipogenic and Cytochrome P450 Enzymes in Non-Obese Hereditary Hypertriglyceridemic Rats

The efficacy of fenofibrate in the treatment of hepatic steatosis has not been clearly demonstrated. In this study, we investigated the effects of fenofibrate and silymarin, administered as monotherapy and in combination to existing hepatic steatosis in a unique strain of hereditary hypertriglyceridemic rats (HHTg), a non-obese model of metabolic syndrome. HHTg rats were fed a standard diet without or with fenofibrate (100 mg/kg b.wt./day) or with silymarin (1%) or with a combination of fenofibrate with silymarin for four weeks. Fenofibrate alone and in combination with silymarin decreased serum and liver triglycerides and cholesterol and increased HDL cholesterol. These effects were associated with the decreased gene expression of enzymes involved in lipid synthesis and transport, while enzymes of lipid conversion were upregulated. The combination treatment had a beneficial effect on the gene expression of hepatic cytochrome P450 (CYP) enzymes. The expression of the CYP2E1 enzyme, which is source of hepatic reactive oxygen species, was reduced. In addition, fenofibrate-induced increased CYP4A1 expression was decreased, suggesting a reduction in the pro-inflammatory effects of fenofibrate. These results show high efficacy and mechanisms of action of the combination of fenofibrate with silymarin in treating hepatic steatosis and indicate the possibility of protection against disorders in which oxidative stress and inflammation are involved.     

秦皮甲素对AGEs致损的ECV304细胞增殖及氧化应激的影响

为研究秦皮甲素对血管内皮细胞的保护作用,采用CCK-8法观察秦皮甲素对体外AGEs培养的人脐静脉内皮细胞增殖的影响。检测不同浓度AGEs以及秦皮甲素作用后对内皮细胞一氧化氮(NO)、不对称二甲基精氨酸(ADMA)水平的影响以及内皮细胞氧化应激有关指标:活性氧簇(reactive oxygen species,ROS)、丙二醛(malondialdehyde,MDA)、超氧化物歧化酶(superoxide dismutase,SOD);脂肪代谢相关指标:乳酸脱氢酶(lactic dehydrogenase,LDH)、总胆固醇(total cholesterol,CHO)、甘油三酯(triglyceride,TG)和低密度脂蛋白(low density lipoprotein,LDL),同时分别检测粘附相关因子:血管细胞粘附分子-1(VCAM-1)和细胞间粘附分子-1(ICAM-1)的表达水平。结果显示200 mg/L AGEs对人内皮细胞ECV304增殖有显著抑制作用,秦皮甲素可对抗AGEs导致的内皮细胞增殖抑制,并呈浓度依赖性。在25 mg/L时,保护效应达到最高。秦皮甲素可抵抗ROS生成。同时可改善细胞的脂类代谢:胆固醇、LDL以及TG含量在秦皮甲素作用后改善明显。秦皮甲素可显著抑制内皮粘附因子VCAM-1的表达。秦皮甲素还可上调NO水平,下调ADMA水平。总之,秦皮甲素可有效促进人血管内皮细胞增殖并在改善氧化应激,脂代谢,粘附因子和NO释放等方面发挥作用。     

Differential effects of low-density lipoprotein and chylomicron remnants on lipid accumulation in human macrophages

The effects of low-density lipoprotein (LDL) and chylomicron remnants on lipid accumulation in human monocyte-derived macrophages (HMDMs) and in macrophages derived from the human monocyte cell line THP-1 were compared. The HMDMs or THP-1 macrophages were incubated with LDL, oxidized LDL (oxLDL), chylomicron remnant-like particles (CMR-LPs), or oxidized CMR-LPs (oxCMR-LPs), and the amount and type of lipid accumulated were determined. As expected, the lipid content of both cell types was increased markedly by oxLDL but not LDL, and this was due to a rise in cholesterol, cholesteryl ester (CE), and triacylglycerol (TG) levels. In contrast, both CMR-LPs and oxCMR-LPs caused a considerable increase in cellular lipid in HMDMs and THP-1 macrophages, but in this case there was a greater rise in the TG than in the cholesterol or CE content. Lipid accumulation in response to oxLDL, CMR-LPs, and oxCMR-LPs was prevented by the ACAT inhibitor CI976 in HMDMs but not in THP-1 macrophages, where TG levels remained markedly elevated. The rate of incorporation of [(3)H]oleate into CE and TG in THP-1 macrophages was increased by oxLDL, CMR-LPs, and oxCMR-LPs, but incorporation into TG was increased to a greater extent with CMR-LPs and oxCMR-LPs compared with oxLDL. These results demonstrate that both CMR-LPs and oxCMR-LPs cause lipid accumulation in human macrophages comparable to that seen with oxLDL and that oxidation of the remnant particles does not enhance this effect. They also demonstrate that a greater proportion of the lipid accumulated in response to CMR-LPs compared with oxLDL is TG rather than cholesterol or CE and that this is associated with a higher rate of TG synthesis. This study, therefore, provides further evidence to suggest that chylomicron remnants have a role in foam cell formation that is distinct from that of oxLDL.