Macrophage free cholesterol content regulates apolipoprotein E synthesis

The relationship between macrophage cholesterol content and apolipoprotein E (apoE) synthesis was studied in mouse peritoneal macrophages. Incubations in acetylated low density lipoprotein led to a concentration-dependent increase in macrophage free and esterified cholesterol content and apoE synthesis. Enhanced apoE production reflected increased apoE mRNA abundance in cholesterol-enriched cells. Including an inhibitor of acyl-CoA:cholesterol acyltransferase in incubations with acetylated low density lipoprotein did not diminish the apoE response, suggesting that increased macrophage free cholesterol content was responsible for enhancing apoE production. Incubations in 25-OH cholesterol also produced a dose-dependent stimulation of macrophage apoE synthesis. Removing free cholesterol from cells using high density lipoprotein returned apoE synthetic rates toward base line. Macrophage lysate apoE and medium apoE levels changed in parallel during cholesterol loading and efflux indicating that regulation of apoE by free cholesterol was not primarily at the level of secretion. It is concluded that (a) cholesterol enrichment of macrophages increases apoE mRNA abundance and stimulates apoE synthesis and secretion; (b) neither cholesterol esterification nor cholesteryl ester accumulation are required for increased apoE production.     

Dissociated regulation of macrophage LDL receptor and apolipoprotein E gene expression by sterol

The control of apoE gene expression by sterols and the relationship between regulation of the apoE and low density lipoprotein (LDL) receptor genes were investigated in a human macrophage line. Incubation of THP1 cells in either LDL or acetylated LDL increased apoE mRNA levels 4- to 15-fold. In addition, the cellular abundance of these two mRNA species (apoE and LDL receptor) was inversely regulated by cellular cholesterol content over an identical dose-response relationship. Regulation of the LDL receptor and apoE genes could, however, be temporally dissociated in response to the accumulation or removal of lipoprotein-derived (exogenous) cholesterol and in response to perturbation of endogenous cellular cholesterol biosynthesis. In addition, we observed that the apoE gene responded more promptly to 25-hydroxycholesterol than to exogenous cholesterol. These data support the concept that the apoE gene be considered among the family of genes sensitively regulated by cellular sterol balance but suggest that the molecular mechanism accounting for the modulation of the LDL receptor and apoE genes are distinct, with the relationship between cell sterol balance and apoE gene regulation being more complex.     

Endothelial lipase modulates susceptibility to atherosclerosis in apolipoprotein-E-deficient mice

Endothelial lipase (EL) expression correlates inversely with circulating high density lipoprotein (HDL) cholesterol levels in genetic mouse models, and human genetic variation in this locus has been linked to differences in HDL cholesterol levels. These data suggest a role for EL in the development of atherosclerotic vascular disease. To investigate this possibility, LIPG-null alleles were bred onto the apoE knockout background, and the homozygous double knockout animals were characterized. Both apoE knockout and double knockout mice had low HDL cholesterol levels when compared with wild-type mice, but the HDL cholesterol levels of the double knockout mice were higher than those of apoE knockout mice. Atherogenic very low density lipoprotein and intermediate density lipoprotein/low density lipoprotein cholesterol levels of the double knockout mice were also greater than those of the apoE knockout animals. Despite this lipid profile, there was a significant approximately 70% decrease in atherosclerotic disease area in double knockout mice on a regular diet. Immunohistochemistry and protein blot studies revealed increased EL expression in the atherosclerotic aortas of the apoE knockout animals. An observed decrease in macrophage content in vessels lacking EL correlated with ex vivo vascular monocyte adhesion assays, suggesting that this protein can modulate monocyte adhesion and infiltration into diseased tissues. These data suggest that EL may have indirect atherogenic actions in vivo through its effect on circulating HDL cholesterol and direct atherogenic actions through vascular wall processes such as monocyte recruitment and cholesterol uptake.     

Apolipoprotein E4 in macrophages enhances atherogenesis in a low density lipoprotein receptor-dependent manner

Apolipoprotein E (apoE) and the low density lipoprotein receptor (LDLr) are well recognized determinants of atherosclerosis. In addition to hepatocytes, where both are highly expressed and contribute to plasma lipoprotein clearance, they are expressed in vascular cells and macrophages. In this study, we examined the effects of human apoE isoforms and LDLr levels in atherogenic pathways in primary macrophages ex vivo and atherosclerosis development after bone marrow transfer in vivo using mice expressing human apoE isoforms and different levels of LDLr expression. Increases in LDLr expression significantly increased cholesterol delivery into macrophages in culture, and the effects were more prominent with lipoproteins containing apoE4 than those containing apoE3. Conversely, increased LDLr expression reduced cholesterol efflux in macrophages expressing apoE4 but not in macrophages expressing apoE3. Furthermore, apoE3 protected VLDL from oxidation in vitro more than did apoE4. In LDLr-deficient mice expressing the human apoE4 isoform, Apoe4/4 Ldlr-/-, the replacement of bone marrow cells with those expressing LDLr increased atherosclerotic lesions in a dose-dependent manner compared with mice transplanted with cells having no LDLr. In contrast, atherosclerosis in Apoe3/3 Ldlr-/- mice, expressing the human apoE3 isoform, did not differ by the levels of macrophage LDLr expression. Our results demonstrate that apoE4, but not apoE3, in macrophages enhances atherosclerotic plaque development in mice in an LDLr-dependent manner and suggests that this interaction may contribute to the association of apoE4 with an increased cardiovascular risk in humans.     

Synthesis and secretion of apoE in thioglycolate-elicited mouse peritoneal macrophages: effect of cholesterol efflux

ApoE synthesis and secretion, as a function of cellular cholesterol content and cholesterol efflux, was studied in thioglycolate-elicited mouse peritoneal macrophages. As expected, loading elicited macrophages with cholesterol induced a 5-fold increase in apoE secretion and a 2.5-fold increase in cellular apoE content over a 5-h period. Treatment of cholesterol-loaded cells with HDL3 further increased apoE secretion 1.7-fold and decreased cellular cholesterol by 20%. Treatment of cholesterol-loaded cells with HDL3 and SAH 58.035 (an ACAT inhibitor) increased apoE secretion 2.4-fold and decreased cellular cholesterol content by 35%. Treatment of the cells with the ACAT inhibitor alone suppressed apoE secretion by 40% but did not change cellular cholesterol content. Northern blot analysis of RNA indicated that cholesterol loading increased apoE mRNA 2-fold. ApoE mRNA levels were not further affected by treatment with HDL3 and/or the ACAT inhibitor. Cholesterol-loaded cells, in the absence of HDL3, secreted apoE into the media in two fractions as determined by column chromatography: a large molecular weight complex, (larger than HDL), and an essentially lipid-free protein. In the presence of HDL3, the cells secreted apoE in three fractions: a large molecular weight complex, an essentially lipid-free protein, and over 50% of apoE associated with HDL. In the process, HDL3 became larger and eluted in a position identical to that of HDL2. A small amount of HDL3-derived material was also transformed to an LDL-size particle. Incubation of HDL3 in the absence of cholesterol-loaded cells did not produce these changes. It is concluded that cholesterol-loading increases apoE mRNA content and apoE synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)     

Modulation of THP-1 macrophage and cholesterol-loaded foam cell apolipoprotein E levels by glycosphingolipids

Macrophages synthesize and secrete apolipoprotein E (apoE) constitutively. This process is upregulated under conditions of cholesterol loading. The response to cholesterol is antiatherogenic as it is believed to promote cholesterol efflux from the artery wall. The concentration of lactosyl ceramide (LacCer), a glycosphingolipid recently discovered to regulate cellular signaling, proliferation, and expression of adhesion molecules, is also increased in atherosclerotic tissues. Here we have investigated the effect of exogenous LacCer on macrophage apoE levels. We show that increasing macrophage LacCer levels sevenfold led to reductions in cellular and secreted apoE (15 and 30%, respectively, over a 24-h period) as determined by enzyme-linked immunosorbent assay. A similar effect was also induced by glucosyl ceramide (GlcCer) but not by ganglioside species. When macrophages were converted to cholesterol-loaded foam cells by incubation with acetylated LDL, the resulting increase in cellular apoE levels was inhibited by 26% when the cells were subsequently enriched with LacCer. After metabolic labeling of cellular glycosphingolipids with [14C]palmitate, we also discovered that high-density lipoprotein (HDL) stimulates the efflux of glycosphingolipids from foam cells. These data imply that LacCer and GlcCer may be proatherogenic due to the suppression of macrophage apoE production. Furthermore, the efflux of glycosphingolipids from macrophage foam cells to HDL could indicate a potential pathway for their removal from the artery wall and subsequent delivery to the liver.     

Domains of apolipoprotein E contributing to triglyceride and cholesterol homeostasis in vivo. Carboxyl-terminal region 203-299 promotes hepatic very low density lipoprotein-triglyceride secretion

Apolipoprotein (apo) E has been implicated in cholesterol and triglyceride homeostasis in humans. At physiological concentration apoE promotes efficient clearance of apoE-containing lipoprotein remnants. However, high apoE plasma levels correlate with high plasma triglyceride levels. We have used adenovirus-mediated gene transfer in apoE-deficient mice (E(-)/-) to define the domains of apoE required for cholesterol and triglyceride homeostasis in vivo. A dose of 2 x 10(9) plaque-forming units of apoE4-expressing adenovirus reduced slightly the cholesterol levels of E(-)/- mice and resulted in severe hypertriglyceridemia, due to accumulation of cholesterol and triglyceride-rich very low density lipoprotein particles in plasma. In contrast, the truncated form apoE4-202 resulted in a 90% reduction in the plasma cholesterol levels but did not alter plasma triglyceride levels in the E(-)/- mice. ApoE secretion by cell cultures, as well as the steady-state hepatic mRNA levels in individual mice expressing apoE4 or apoE4-202, were similar. In contrast, very low density lipoprotein-triglyceride secretion in mice expressing apoE4, but not apoE4-202, was increased 10-fold, as compared with mice infected with a control adenovirus. The findings suggest that the amino-terminal 1-202 region of apoE4 contains the domains required for the in vivo clearance of lipoprotein remnants. Furthermore, the carboxyl-terminal 203-299 residues of apoE promote hepatic very low density lipoprotein-triglyceride secretion and contribute to apoE-induced hypertriglyceridemia.     

Apolipoprotein E modulates clearance of apoptotic bodies in vitro and in vivo, resulting in a systemic proinflammatory state in apolipoprotein E-deficient mice

Apolipoprotein E (apoE) is a 34-kDa glycoprotein involved in lipoprotein transport through interaction with the low-density lipoprotein receptor and related receptors. Recently, it has become clear that apoE binding to its receptors plays a role both in development and in control of the immune system. In this study, we show that apoE modulates the rate of uptake of apoptotic cells by macrophages. In vitro, apoE-deficient macrophages ingest less apoptotic thymocytes (but not latex beads) than wild-type macrophages, and this defect can be corrected by addition of exogenous apoE protein. In vivo, the number of dying macrophages is increased in a range of tissues, including lung and brain. Possibly in response to the larger numbers of persistent apoptotic bodies, the number of live macrophages in these tissues are also increased compared with those of wild-type control mice. In addition to the significant changes in macrophage population dynamics we observed, levels of the proinflammatory cytokine TNF-alpha and the positive acute phase reactant fibrinogen are also elevated in the livers from apoE-deficient mice. In contrast, neither deletion of the gene encoding the LDL receptor nor cholesterol feeding of wild-type mice affected either the number of apoptotic bodies or the number of live macrophages. We conclude that apoE deficiency results in impaired clearance of apoptotic cell remnants and a functionally relevant systemic proinflammatory condition in mice, independent of its role in lipoprotein metabolism. Any similar reduction of apoE activity in humans may contribute to the pathogenesis of a wide range of chronic diseases including atherosclerosis, dementia, and osteoporosis.     

Impaired secretion of apolipoprotein E2 from macrophages

Human apoE is a multifunctional and polymorphic protein synthesized and secreted by liver, brain, and tissue macrophages. Here we show that apoE isoforms and mutants expressed through lentiviral transduction display cell-specific differences in secretion efficiency. Whereas apoE3, apoE4, and a natural mutant of apoE4 (apoE-Cys(142)) were efficiently secreted from macrophages, apoE2 and a non-natural apoE mutant (apoE-Cys(112)/Cys(142)) were retained in the perinuclear region and only minimally secreted. The secretory block for apoE2 in macrophages was not affected by the ablation of LDLR (low density lipoprotein receptor), ABCA-1, or SR-BI (scavenger receptor class B type I) but was released in the absence of low density lipoprotein receptor related protein (LRP). In co-immunoprecipitation experiments, an anti-apoE antibody pulled down two times more LRP in apoE2-transduced macrophages than in apoE3-expressing macrophages. Non-reducing SDS-PAGE/Western blot analyses showed that macrophage apoE2 is mostly dimeric and multimeric, whereas apoE3 is predominantly monomeric. ApoE2 retention and multimer formation also occurred in human macrophages derived from the monocyte cell line THP-1. These results were specific for macrophages, as in transduced mouse primary hepatocytes: 1) ApoE2 was secreted as efficiently as apoE3 and apoE4; 2) all isoforms were exclusively in monomeric form; 3) there was no co-immunoprecipitation of apoE and LRP. A microsomal triglyceride transfer protein (MTP) inhibitor nearly deleted apoB100 secretion from hepatocytes without affecting apoE secretion. These data show that macrophages retain apoE2, a highly expressed protein carried by about 8% of the human population. Given the role of locally produced apoE in regulating cholesterol efflux, modulating inflammation, and controlling oxidative stress, this unique property of apoE2 may have important impacts on atherogenesis.     

The amino-terminal 1-185 domain of apoE promotes the clearance of lipoprotein remnants in vivo. The carboxy-terminal domain is required for induction of hyperlipidemia in normal and apoE-deficient mice

Apolipoprotein E (apoE) promotes receptor-mediated catabolism of apoE-containing lipoprotein remnants. Impairments in remnant clearance are associated with type III hyperlipoproteinemia and premature atherosclerosis. In humans, apoE plasma levels correlate with plasma triglyceride levels, suggesting that excess apoE may also affect plasma triglyceride levels. We have used adenovirus-mediated gene transfer in mice to map the domains of apoE required for cholesterol and triglyceride clearance, in vivo. Adenovirus expressing apoE3 and apoE4 at doses of (1-2) x 10(9) pfu increased plasma cholesterol and triglyceride levels in normal C57BL6 mice and failed to normalize the high cholesterol levels of apoE-deficient mice due to induction of hypertriglyceridemia. In contrast, an adenovirus expressing the truncated apoE 1-185 form normalized the cholesterol levels of E(-)(/)(-) mice and did not cause hypertriglyceridemia. Northern blot analysis of hepatic RNA from mice expressing the full-length and the truncated apoE forms showed comparable steady-state apoE mRNA levels of the full-length apoE forms that cause hyperlipidemia and the truncated apoE forms that do not cause hyperlipidemia. The findings suggest that the amino-terminal residues 1-185 of apoE are sufficient for the clearance of apoE-containing lipoprotein remnants by the liver, whereas domains of the carboxy-terminal one-third of apoE are required for apoE-induced hyperlipidemia.     

Regulation of macrophage ApoE expression and processing by extracellular matrix

Macrophage-derived apoE in the vessel wall has important effects on atherogenesis in vivo, making it important to understand factors that regulate its expression. Vessel wall macrophages are embedded in an extracellular matrix produced largely by arterial smooth muscle cells and endothelial cells. In this series of studies, we evaluated the influence of extracellular matrix on macrophage apoE expression. Subendothelial matrix, fibronectin, or collagen I stimulated macrophage apoE gene expression and apoE synthesis. Adhesion of macrophages to a polylysine substrate had no effect. An increase in apoE synthesis after plating on fibronectin could be observed by 2 h and was inhibited by blocking antibodies to the alpha(5)beta(1) integrin receptor for fibronectin. Fibronectin also regulated the post-translational processing of newly synthesized macrophage apoE by inhibiting its degradation. The increment in apoE resulting from suppressed degradation was retained in the cell-fibronectin monolayer in a pool that was resistant to release by exogenous high density lipoprotein subfraction 3. These observations establish a new pathway for the regulation of macrophage apoE expression in the vessel wall. The composition of the extracellular matrix changes after vessel wall injury and in response to locally produced cytokines and growth factors. The evolving composition of this matrix will, therefore, be important for regulating apoE expression and processing by vessel wall macrophages.     

Macrophage apolipoprotein-E knockdown modulates caspase-3 activation without altering sensitivity to apoptosis

Apolipoprotein-E (apoE) expression may be associated with apoptosis resistance. Since macrophages constitutively synthesize apoE we speculated that this may contribute to apoptosis resistance. Using siRNA, human monocyte derived macrophage (hMDM) apoE mRNA and protein was reduced by 97% and 61%, respectively. ApoE knockdown increased staurosporine-induced caspase-3 activation by 78% without altering cell survival or apoptosis as assessed by TUNEL analysis and morphological changes. This result was confirmed using murine bone marrow derived macrophages (mBMDM) from apoE null and wild type mice. In these experiments, staurosporine-induced caspase-3 activation was increased by 49% in apoE null compared to wild type mBMDM and this was not associated with differences in TUNEL signal, annexin-V binding or DNA fragmentation. ApoE is also important for cholesterol transport and macrophage cholesterol can regulate apoptosis. Knockdown of hMDM apoE inhibited basal cholesterol efflux by 20% without altering apolipoprotein-AI mediated cholesterol efflux over 24 h. Similarly, in apoE null mBMDM a non significant trend for a 16% reduction in basal cholesterol efflux was observed as compared to wild type mBMDM. In conclusion, apoE expression modulates capase-3 activity, but this has no significant impact on sensitivity to apoptosis and only a moderate impact on basal cholesterol efflux.     

apoE_4近交系转基因鼠的高脂血症表现和自发变换行为损害

建立相关疾病的动物模型 ,研究apoE4在脂质代谢和早老性痴呆等疾病中的作用 .通过显微注射法建立人apoE4近交系转基因鼠 .经Southern和Northern印迹杂交 ,鉴定apoE4基因的整合与表达 .98只新生鼠中鉴定出 2只首建鼠 ,定名为TgN(apoE4) 1QiL和TgN(apoE4) 2QiL .外源基因整合的拷贝数分别为 1和 2 .F1代杂合鼠的脑 ,肾脏 ,心脏和肝脏中均有人apoE4基因的表达 .血清脂质水平通过酶法检测 ,自发变换行为经Y迷宫试验检测 .转基因鼠的血清胆固醇和甘油三酯明显升高 ,自发变换行为受到损害 .结果表明 ,近交系转基因鼠过量表达人apoE4基因可导致血清脂质升高 ,并对其空间记忆能力造成损害 .