Extrahepatic synthesis of apolipoprotein E

Apolipoprotein E (apoE) synthesis has been examined in rat and guinea pig tissues using in vitro translation and [35S]methionine labeling of tissue slices. A number of tissues not involved in lipoprotein synthesis synthesize a protein very similar to apoE, including the spleen, adrenal, kidney, testis, ovary, heart, and lung. Although the intestine is involved in lipoprotein synthesis, apoE synthesis could not be detected in intestinal mucosa. The protein synthesized by the extrahepatic tissues was identified as apoE by its electrophoretic mobility, its immunologic reactivity with a monospecific antibody and by limited proteolysis mapping with Staphylococcus aureus V8 protease. ApoE represented between 0.02 and 0.7% of the total protein synthesized in the extrahepatic tissues, indicating that apoE mRNA is a fairly abundant mRNA in these tissues. ApoE mRNA was also detected by hybridization with a rat apoE cDNA clone, which hybridized to a single mRNA 1250 nucleotides in length in rat liver and in extrahepatic tissues. Hybridization of the apoE clone to rat genomic DNA demonstrated that the apoE gene was more heavily methylated in intestinal mucosa, which did not synthesize apoE, than in liver, testis, or kidney. 35S labeling of peritoneal macrophages revealed that both rat and guinea pig macrophages synthesized and secreted apoE in vitro. Rhesus aortic smooth muscle cells also synthesized and secreted apoE. The possible functions of apoE synthesized in the peripheral tissues are considered.     

Relationship between apolipoprotein E mRNA expression and tissue cholesterol content in rat adrenal gland.

Among extrahepatic tissues the adrenal gland has one of the highest concentrations of apoE mRNA and the highest rate of apoE synthesis. In the present investigation several previously described in vivo treatments were used to assess the relationship between apoE expression and cellular cholesterol in the rat adrenal gland. Treatment of rats with 4-aminopyrazolo[3,4-d]pyrimidine (4-APP) to lower serum cholesterol concentration and deplete adrenal gland cholesterol content decreased adrenal gland apoE mRNA concentration. These adrenal responses were blocked by dexamethasone (DEX) suggesting that the effect of 4-APP occurred indirectly via stimulation of the adrenal gland by endogenous adrenocorticotrophic (ACTH). Relative to control rats, DEX treatment increased both adrenal gland cholesterol content and apoE mRNA concentration. Concurrent ACTH and DEX administration reduced both adrenal gland cholesterol content and apoE mRNA concentration relative to DEX-treated rats. ACTH administration also rapidly decreased adrenal gland apoE mRNA concentration and cholesterol content in rats pretreated with DEX. In all the above experiments, adrenal gland cholesterol content and apoE mRNA concentration were positively correlated (r = 0.78, P = 0.0001). In contrast, aminoglutethimide treatment, which blocks adrenal gland steroidogenesis and greatly increases adrenal gland cholesterol content, was without effect on apoE mRNA concentration. ACTH administration to rats treated with DEX + aminoglutethimide resulted in decreased adrenal apoE mRNA despite greatly increased adrenal cholesterol content. This uncoupling of adrenal gland cholesterol content and apoE mRNA concentration suggests that apoE mRNA expression and cellular cholesterol are regulated independently by ACTH.     

Simultaneous effects of the apolipoprotein E polymorphism on apolipoprotein E, apolipoprotein B, and cholesterol metabolism.

Human apolipoprotein (apo) E is polymorphic. We have investigated the effect of the apo-E polymorphism on quantitative plasma levels of apo E, apo B, and total cholesterol in a sample of 563 blood-bank donors from Marburg and Giessen, West Germany. The relative frequencies of the epsilon 2, epsilon 3, and epsilon 4 alleles are .063, .793, and .144, respectively. The average effects of the epsilon 2 allele are to raise apo-E levels by 0.95 mg/dl, lower apo B levels by 9.46 mg/dl, and lower total cholesterol levels by 14.2 mg/dl. The average effects of the epsilon 4 allele are to lower apo-E levels by 0.19 mg/dl, to raise apo-B levels by 4.92 mg/dl, and to raise total cholesterol levels by 7.09 mg/dl. The average effects of the epsilon 3 allele are near zero for all three phenotypes. The apo-E polymorphism accounts for 20% of the variability of plasma apo-E levels, 12% of the variability of plasma apo-B levels, and 4% of the variability of total plasma cholesterol levels. The inverse relationship between the genotype-specific average apo-E levels and both the genotype-specific average apo-B and cholesterol levels is offset by a positive relationship between apo-E levels and both apo-B and cholesterol levels within an apo-E genotype. The apo-E polymorphism also has a direct effect on the correlation between apo-E and total cholesterol levels. The implication of these results on multivariate genetic analyses of these phenotypes is discussed.(ABSTRACT TRUNCATED AT 250 WORDS)     

Participation of apolipoprotein E in the transport of cholesterol esters

It is established in the in vitro experiments that subfraction of HDL3 is able of accepting cholesterol from the atherosclerosis-afflicted aorta intima. Apoprotein E has no effect on the acceptance of cholesterol from the intima by HDL3 particles. The role of the protein under its joint incubation with the aorta intima and HDL3 is reduced to the uptake of cholesterol esters from HDL3-particles enriched by cholesterol. It is assumed that apoprotein E under certain metabolic conditions can transfer esterified cholesterol from HDL-particles on other lipoproteins as well as into tissues impoverished in the cholesterol content.     

Guanosine effect on cholesterol efflux and apolipoprotein E expression in astrocytes

The main source of cholesterol in the central nervous system (CNS) is represented by glial cells, mainly astrocytes, which also synthesise and secrete apolipoproteins, in particular apolipoprotein E (ApoE), the major apolipoprotein in the brain, thus generating cholesterol-rich high density lipoproteins (HDLs). This cholesterol trafficking, even though still poorly known, is considered to play a key role in different aspects of neuronal plasticity and in the stabilisation of synaptic transmission. Moreover, cell cholesterol depletion has recently been linked to a reduction in amyloid beta formation. Here we demonstrate that guanosine, which we previously reported to exert several neuroprotective effects, was able to increase cholesterol efflux from astrocytes and C6 rat glioma cells in the absence of exogenously added acceptors. In this effect the phosphoinositide 3 kinase/extracellular signal-regulated kinase 1/2 (PI3K/ERK1/2) pathway seems to play a pivotal role. Guanosine was also able to increase the expression of ApoE in astrocytes, whereas it did not modify the levels of ATP-binding cassette protein A1 (ABCA1), considered the main cholesterol transporter in the CNS. Given the emerging role of cholesterol balance in neuronal repair, these effects provide evidence for a role of guanosine as a potential pharmacological tool in the modulation of cholesterol homeostasis in the brain.     

High cholesterol diet induces tau hyperphosphorylation in apolipoprotein E deficient mice

We analysed the effects of high cholesterol (HC) intake and reduced apolipoprotein E (apoE) activity on tau phosphorylation and on the activities of the major tau kinases and phosphatases in brains from wild-type and apoE-knockout (apoEKO) mice. We show that HC diet potently induced intraneuronal accumulation of hyperphosphorylated tau in apoEKO mice, as well as upregulation of several tau kinases, without affecting tau phosphatases. Our results suggest an interaction between dietary and genetic factors in the development of tauopathies, which can be relevant in humans, where the apoE4 isoform could have a lack of function as compared to other isoforms.     

Separation of free and apolipoprotein D-associated human plasma lecithin: cholesterol acyltransferase

A high performance gel filtration method for the rapid and reproducible separation of free and apolipoprotein D-associated lecithin: cholesterol acyltransferase (LCAT) originating from human plasma has been developed. Starting from step 3 of a previously invented covalent chromatography procedure, free LCAT was obtained as a well separated fraction in a yield of 55% of that injected into the column. The free LCAT had a specific activity of over 34,000 units/mg and did not contain apolipoprotein D or any other contaminant in the injected sample. Further 28% of LCAT with fully retained activity was recovered in a second fraction, demonstrating a 66,000 u LCAT associated with all apolipoprotein D occurring as a mean 33,000 u and a minor 66,000 u species and with at least two unidentified proteins with apparent molecular masses of 76,000 u and 43,000 u, respectively. Both free and apolipoprotein D-associated LCAT accepted the free cholesterol of heat-inactivated plasma selectively depleted of VLDL and LDL (alpha-LCAT activity) and of HDL (beta-LCAT activity) as substrate.     

Rat granulosa cell apolipoprotein E secretion. Regulation by cell cholesterol

We have demonstrated previously that cultured rat ovarian granulosa cells synthesize and secrete apoE, and this production of apoE is increased by agents that stimulate protein kinase A (cyclic AMP-dependent enzyme) (for example, cholera toxin) and protein kinase C (Ca2+/phospholipid-dependent enzyme) (for example, 12-O-tetradecanoylphorbol-13-acetate, a phorbol ester). In the studies presented in this report, we have examined the effect of changes in cell cholesterol synthesis on the production of apoE by rat ovarian granulosa cells. Mevinolin, an inhibitor of hydroxymethylglutaryl (HMG)-CoA reductase (the rate-limiting enzyme in cholesterol synthesis), and 4,4,10 beta-trimethyl-trans-decal-3 beta-ol, an inhibitor of squalene cyclization, both attenuate the cholera toxin or 12-O-tetradecanoylphorbol-13-acetate stimulation of granulosa cell apoE secretion and apoE mRNA content in a dose-responsive manner. The inhibitory effect of mevinolin is reversed by the concomitant administration of mevalolactone, which provides the cells with the product of the reaction catalyzed by HMG-CoA reductase. Steroidogenesis per se has no effect on apoE production. Aminoglutethimide, which blocks the rate-limiting step in steroidogenesis, has no effect on apoE or apoE mRNA. The data indicate that products of HMG-CoA reductase (isoprenes, cholesterol and/or cholesterol metabolites) are required along with stimulators of protein kinases A and C, to regulate ovarian granulosa cell apoE production.     

MicroRNA-33a regulates cholesterol synthesis and cholesterol efflux-related genes in osteoarthritic chondrocytes

IntroductionSeveral studies have shown that osteoarthritis (OA) is strongly associated with metabolism-related disorders, highlighting OA as the fifth component of the metabolic syndrome (MetS). On the basis of our previous findings on dysregulation of cholesterol homeostasis in OA, we were prompted to investigate whether microRNA-33a (miR-33a), one of the master regulators of cholesterol and fatty acid metabolism, plays a key role in OA pathogenesis.MethodsArticular cartilage samples were obtained from 14 patients with primary OA undergoing total knee replacement surgery. Normal cartilage was obtained from nine individuals undergoing fracture repair surgery. Bioinformatics analysis was used to identify miR-33a target genes. miR-33a and sterol regulatory element-binding protein 2 (SREBP-2) expression levels were investigated using real-time PCR, and their expression was also assessed after treatment with transforming growth factor-β1 (TGF-β1) in cultured chondrocytes. Akt phosphorylation after treatment with both TGF-β1 and miR-33a inhibitor or TGF-β1 and miR-33a mimic was assessed by Western blot analysis. Furthermore, we evaluated the effect of miR-33a mimic and miR-33a inhibitor on Smad7, a negative regulator of TGF-β signaling, on cholesterol efflux-related genes, ATP-binding cassette transporter A1 (ABCA1), apolipoprotein A1 (ApoA1) and liver X receptors (LXRα and LXRβ), as well as on matrix metalloproteinase-13 (MMP-13), using real-time PCR.ResultsWe found that the expression of miR-33a and its host gene SREBP-2 was significantly elevated in OA chondrocytes compared with normal chondrocytes. Treatment of cultured chondrocytes with TGF-β1 resulted in increased expression of both miR-33a and SREBP-2, as well as in rapid induction of Akt phosphorylation, whereas TGF-β-induced Akt phosphorylation was enhanced by miR-33a and suppressed by inhibition of miR-33a, as a possible consequence of Smad7 regulation by miR-33a. Moreover, treatment of normal chondrocytes with miR-33a resulted in significantly reduced ABCA1 and ApoA1 mRNA expression levels and significantly elevated MMP-13 expression levels, promoting the OA phenotype, whereas miR-33a’s suppressive effect was reversed using its inhibitor.ConclusionsOur findings suggest, for the first time to our knowledge, that miR-33a regulates cholesterol synthesis through the TGF-β1/Akt/SREBP-2 pathway, as well as cholesterol efflux-related genes ABCA1 and ApoA1, in OA chondrocytes, pointing to its identification as a novel target for ameliorating the OA phenotype.     

Impaired recycling of apolipoprotein E4 is associated with intracellular cholesterol accumulation

After internalization of triglyceride-rich lipoproteins (TRL) in hepatoma cells, TRL particles are immediately disintegrated in the early endosomal compartment. This involves the targeting of lipids and apoprotein B along the degradative pathway and the recycling of TRL-derived apoE through recycling endosomes. Re-secretion of apoE is accompanied by the concomitant association of apoE and cellular cholesterol with high-density lipoproteins (HDL). Since epidemiological data showed that apoE3 and apoE4 have differential effects on HDL metabolism, we investigated whether the intracellular processing of TRL-derived apoE4 differs from apoE3-TRL. In this study, we demonstrated by radioactive and immunofluorescence uptake experiments that cell-surface binding and internalization of TRL-derived apoE4 are increased compared with apoE3 in hepatoma cells. Pulse-chase experiments revealed that HDL-induced recycling, but not disintegration and degradation, of apoE4-enriched TRL is strongly reduced in these cells. Furthermore, impaired HDL-induced apoE4 recycling is associated with reduced cholesterol efflux. Studies performed in Tangier fibroblasts showed that apoE recycling does not depend on ATP-binding cassette transporter A1 activity. These studies provide initial evidence that impaired recycling of apoE4 could interfere with intracellular cholesterol transport and contribute to the pathophysiological lipoprotein profile observed in apoE4 homozygotes.     

Haptoglobin binds apolipoprotein E and influences cholesterol esterification in the cerebrospinal Fluid

Haptoglobin (Hpt) binds the apolipoprotein (Apo) A–I domain, which is involved in stimulating the enzyme lecithin-cholesterol acyltransferase (LCAT) for cholesterol esterification. This binding was shown to protect ApoA–I against hydroxyl radicals, thus preventing loss of ApoA–I function in enzyme stimulation. In this study, we report that Hpt is also able to bind ApoE. The Hpt binding site on the ApoE structure was mapped by using synthetic peptides, and found homologous to the Hpt binding site of ApoA–I. Hydroxyl radicals promoted in vitro the formation of ApoE-containing adducts which were detected by immunoblotting. Hpt impaired this oxidative modification whereas albumin did not. CSF from patients with multiple sclerosis or subjects without neurodegeneration contains oxidized forms of ApoE and ApoA–I similar to those observed in vitro . CSF was analyzed for its level of ApoA–I, ApoE, Hpt, cholesteryl esters, and unesterified cholesterol. The ratio of esterified with unesterified cholesterol, assumed to reflect the LCAT activity ex vivo , did not correlate with either analyzed protein, but conversely correlated with the ratio [Hpt]/([ApoE]+[ApoA–I]). The results suggest that Hpt might save the function of ApoA–I and ApoE for cholesterol esterification, a process contributing to cholesterol elimination from the brain.     

Effect of dietary cholesterol and alloxan-diabetes on tissue cholesterol and apolipoprotein E mRNA levels in the rabbit

Alloxan-diabetic rabbits develop hypercholesterolemia and hypertriglyceridemia in response to cholesterol feeding. To determine whether alterations in apolipoprotein composition of plasma lipoproteins were due to changes in apolipoprotein gene expression, we measured the steady state apoE mRNA levels in several tissues from both control and diabetic rabbits. Control rabbits were fed either chow or chow plus 1.5% cholesterol (chow-fed or cholesterol-fed groups) and diabetic rabbits were fed either chow or chow plus 0.5% cholesterol for dietary periods of 5, 21, and 42 days. The tissues examined were liver, small intestine, brain, adrenals, and aorta. ApoE mRNA levels were measured by Northern and dot blot analysis with a human apoE cDNA probe. In control rabbits fed either chow or cholesterol diets for up to 42 days, the steady state apoE mRNA levels remained relatively constant in all of the tissues examined. In contrast, in alloxan-diabetic rabbits fed a 0.5% cholesterol diet, apoE mRNA was reduced in liver, brain, and adrenals (46 +/- 19%, 56 +/- 5%, and 39 +/- 18% of chow-fed control, respectively), but showed little change in the aorta (91 +/- 22% of chow-fed control). Despite a similar increase in plasma cholesterol, the cholesterol content of the liver and adrenals of cholesterol-fed diabetic rabbits were 20% and 50%, respectively, of that of the liver and adrenals in cholesterol-fed control rabbits. The result that apoE mRNA levels and tissue cholesterol content are altered in the diabetic cholesterol-fed rabbit suggests that insulin deficiency in the rabbit may influence apoE gene expression and tissue cholesterol homeostasis.     

Apolipoprotein A-I-stimulated apolipoprotein E secretion from human macrophages is independent of cholesterol efflux

Apolipoprotein A-I (apoA-I)-mediated cholesterol efflux involves the binding of apoA-I to the plasma membrane via its C terminus and requires cellular ATP-binding cassette transporter (ABCA1) activity. ApoA-I also stimulates secretion of apolipoprotein E (apoE) from macrophage foam cells, although the mechanism of this process is not understood. In this study, we demonstrate that apoA-I stimulates secretion of apoE independently of both ABCA1-mediated cholesterol efflux and of lipid binding by its C terminus. Pulse-chase experiments using (35)S-labeled cellular apoE demonstrate that macrophage apoE exists in both relatively mobile (E(m)) and stable (E(s)) pools, that apoA-I diverts apoE from degradation to secretion, and that only a small proportion of apoA-I-mobilized apoE is derived from the cell surface. The structural requirements for induction of apoE secretion and cholesterol efflux are clearly dissociated, as C-terminal deletions in recombinant apoA-I reduce cholesterol efflux but increase apoE secretion, and deletion of central helices 5 and 6 decreases apoE secretion without perturbing cholesterol efflux. Moreover, a range of 11- and 22-mer alpha-helical peptides representing amphipathic alpha-helical segments of apoA-I stimulate apoE secretion whereas only the C-terminal alpha-helix (domains 220-241) stimulates cholesterol efflux. Other alpha-helix-containing apolipoproteins (apoA-II, apoA-IV, apoE2, apoE3, apoE4) also stimulate apoE secretion, implying a positive feedback autocrine loop for apoE secretion, although apoE4 is less effective. Finally, apoA-I stimulates apoE secretion normally from macrophages of two unrelated subjects with genetically confirmed Tangier Disease (mutations C733R and c.5220-5222delTCT; and mutations A1046D and c.4629-4630insA), despite severely inhibited cholesterol efflux. We conclude that apoA-I stimulates secretion of apoE independently of cholesterol efflux, and that this represents a novel, ABCA-1-independent, positive feedback pathway for stimulation of potentially anti-atherogenic apoE secretion by alpha-helix-containing molecules including apoA-I and apoE.     

Regulation of apolipoprotein E synthesis in rat ovarian granulosa cells

Apoprotein E (apo-E) is a surface component of several classes of plasma lipoproteins. It functions as a ligand for receptor-mediated uptake of lipoproteins. Granulosa cells from ovaries of diethylstilbestrol-stimulated hypophysectomized immature rats cultured in serum-free medium with [35S]methionine secretes a 34-kDa protein which reacts with a monospecific anti-rat apo-E antibody and represents 0.2% of total secreted protein. Protease mapping confirms that this protein is apoprotein E. The secreted apoprotein E may be complexed with lipid since it floats in the ultracentrifuge at density less than 1.21 micrograms/ml. Freshly isolated granulosa cells contain receptors for follicle stimulating hormone (FSH) but not for human chorionic gonadotropin (hCG) or prolactin. Apoprotein E secretion is stimulated 2-fold by FSH, but hCG and prolactin have no effect. When granulosa cells develop hCG and prolactin receptors after 48 h of culture with FSH, apoprotein E secretion is not stimulated by addition of FSH, hCG, or prolactin although steroidogenesis is induced. The addition of 10(-7) M androgen plus FSH stimulates a marked increase in progestin synthesis over FSH alone, but androgen has little added effect on apoprotein E secretion. Cholera toxin (1.25 micrograms/ml) and dibutyryl cAMP (5 mg/ml), both of which increase intracellular cAMP, stimulate apo-E secretion 9-fold and 12-fold, respectively. The dibutyryl cAMP effect is dependent on both dose (greater than or equal to 0.5 mg/ml required) and time (onset at 24 h, maximum at 48 h, and back to near baseline at 96 h). Isobutylmethylxanthine, a phosphodiesterase inhibitor, augments FSH-stimulated apoprotein E synthesis 2.5-fold, supporting a role for cAMP in mediating the FSH effect. This is the first demonstration of the hormonal regulation of apoprotein E synthesis in an extrahepatic tissue.     

Recycling of apolipoprotein E is not associated with cholesterol efflux in neuronal cells

After receptor-mediated endocytosis of apolipoprotein E (apoE)-containing lipoproteins in hepatocytes, the isoform apoE3 is efficiently recycled in a process which is associated with cholesterol efflux. Recycling and cholesterol efflux are greatly reduced when apoE4 is the only isoform present. ApoE is the main apolipoprotein in cerebrospinal fluid, and it plays a pivotal role in maintaining cholesterol homeostasis in the brain. The isoform apoE4 is associated with an increased risk of Alzheimer's disease and it has been postulated that high intracellular cholesterol levels promote the amyloidogenic processing of amyloid precursor protein. Therefore we investigated the cellular processing of different apoE isoforms as well as the associated cholesterol efflux in the murine neuronal cell line HT-22. Uptake of apoE3-containing lipoproteins resulted in the expected recycling while, as seen in non-neuronal cells, recycling of apoE4 was significantly reduced. However, despite these differences in apoE recycling, there was no difference in rates of cholesterol efflux. Therefore we conclude that in this neuronal cell model the reduced recycling of apoE4 does not affect cellular cholesterol metabolism.