Differences in the processing of chylomicron remnants and beta-VLDL by macrophages

To gain a detailed understanding of those factors that govern the processing of dietary-derived lipoprotein remnants by macrophages we examined the uptake and degradation of rat triacylglycerol-rich chylomicron remnants and rat cholesterol-rich beta-very low density lipoprotein (beta-VLDL) by J774 cells and primary cultures of mouse peritoneal macrophages. The level of cell associated 125I-labeled beta-VLDL and 125I-labeled chylomicron remnants reached a similar equilibrium level within 2 h of incubation at 37 degrees C. However, the degradation of 125I-labeled beta-VLDL was two to three times greater than the degradation of 125I-labeled chylomicron remnants at each time point examined, with rates of degradation of 161.0 +/- 36.0 and 60.1 +/- 6.6 ng degraded/h per mg cell protein, respectively. At similar extracellular concentrations of protein or cholesterol, the relative rate of cholesteryl ester hydrolysis from [3H]cholesteryl oleate/cholesteryl [14C]oleate-labeled chylomicron remnants was one-third to one-half that of similarly labeled beta-VLDL. The reduction in the relative rate of chylomicron remnant degradation by macrophages occurred in the absence of chylomicron remnant-induced alterations in low density lipoprotein (LDL) receptor recycling or in retroendocytosis of either 125I-labeled lipoprotein. The rate of internalization of 125I-labeled beta-VLDL by J774 cells was greater than that of 125I-labeled chylomicron remnants, with initial rates of internalization of 0.21 ng/min per mg cell protein for 125I-labeled chylomicron remnants and 0.39 ng/min per mg cell protein for 125I-labeled beta-VLDL. The degradation of 125I-labeled chylomicron remnants and 125I-labeled beta-VLDL was dependent on lysosomal enzyme activity: preincubation of macrophages with the lysosomotropic agent monensin reduced the degradation of both lipoproteins by greater than 90%. However, the pH-dependent rate of degradation of 125I-labeled chylomicron remnants by lysosomal enzymes isolated from J774 cells was 50% that of 125I-labeled beta-VLDL. The difference in degradation rates was dependent on the ratio of lipoprotein to lysosomal protein used and was greatest at ratios greater than 50. The degradation of 125I-labeled beta-VLDL by isolated lysosomes was reduced 30-40% by preincubation of beta-VLDL with 25-50 micrograms oleic acid/ml, suggesting that released free fatty acids could cause the slower degradation of chylomicron remnants. Thus, differences in the rate of uptake and degradation of remnant lipoproteins of different compositions by macrophages are determined by at least two factors: 1) differences in the rates of lipoprotein internalization and 2) differences in the rate of lysosomal degradation.     

Trans fatty acids alter the lipid composition and size of apoB-100-containing lipoproteins secreted by HepG2 cells

This study was conducted to determine the secretion rate and composition of lipoproteins secreted by HepG2 cells as influenced by the type of fatty acid present in the incubation medium. Cells were preincubated for 24 h with palmitic, oleic, elaidic, linoleic or conjugated linoleic acid (CLA), and the lipoproteins secreted during a subsequent incubation period of 24 h were collected for analysis. The secretion rate of apolipoprotein B-100 (apoB) was significantly greater in HepG2 cells preincubated with elaidic acid compared with those preincubated with palmitic or oleic acid; apoB secretion was greater in cells preincubated with CLA compared with those preincubated with linoleic acid. The lipid composition of secreted lipoproteins was also influenced by fatty acid treatment, resulting in significantly smaller lipoprotein particles secreted by cells preincubated with elaidic acid and CLA compared with those secreted by cells treated with oleic acid and linoleic acid, respectively. Our results are relevant to human metabolism for the following reasons: (1) the size of plasma low-density lipoproteins (LDLs) is determined, at least in part, by the composition of apoB-containing lipoproteins secreted by the liver; (2) small plasma LDL particles are associated with an increased risk of coronary heart disease; and (3) specific dietary fatty acids can affect the composition and size of plasma LDLs, thereby imparting a relative atherogenicity to plasma LDLs independent of LDL cholesterol concentration. The present study therefore suggests that elaidic acid and CLA promote the hepatic secretion of small apoB-containing lipoproteins, which could lead to an increased production of small plasma LDL particles.     

Evidence that chylomicron remnants and beta-VLDL are transported by the same receptor pathway in J774 murine macrophage-derived cells

To characterize lipoprotein uptake by macrophages, we studied J774 murine macrophage-derived cells. Uptake of 125I-labeled beta-VLDL and 125I-labeled chylomicron remnants was saturable, specific, and of high affinity. Maximal specific uptake and the concentration at which half-maximal uptake occurred were similar for both beta-VLDL and chylomicron remnants. Specific uptake of 125I-labeled chylomicrons was only 1/5 that of the other two lipoproteins. Cholesterol loading decreased 125I-labeled chylomicron remnant and 125I-labeled beta-VLDL uptake by 25%. Chylomicron remnants and beta-VLDL were equipotent in cross-competition studies; acetyl-LDL did not compete, and human LDL was a poor competitor. Although the amounts of cell-associated lipoproteins were similar, beta-VLDL and chylomicron remnants had different effects on cellular lipid metabolism. beta-VLDL produced a threefold stimulation while chylomicron remnants caused a decrease in [3H]oleate incorporation into cholesteryl ester. beta-VLDL had no effect while chylomicron remnants caused a threefold increase in [3H]oleate incorporation into triacylglycerol. beta-VLDL produced a 44% suppression and chylomicron remnants produced a 78% increase in HMG-CoA reductase activity. In summary, J774 macrophages express a receptor site that recognizes both beta-VLDL and chylomicron remnants; however, these lipoproteins exhibit strikingly different effects on intracellular lipid metabolism.     

Model class A and class L peptides increase the production of apoA-I-containing lipoproteins in HepG2 cells

Class A peptides inhibit atherosclerosis and protect cells from class L peptide-mediated lysis. Because the cytolytic process is concentration dependent, we hypothesized that at certain concentrations both classes of peptides exert similar effect(s) on cells. To test this hypothesis, we studied the effects of a class L peptide (18L = GIKKFLGSIWKFIKAFVG) and a class A peptide, 18A-Pro-18A (18A = DWLKAFYDKVAEKLKEAF) (37pA), on apolipoprotein and lipoprotein production in HepG2 cells. Secretion of (35)S-labeled apolipoprotein A-I (apoA-I) was stimulated by both 18L (110%) and 37pA (135%) at 10 and 20 nM of peptides, respectively. Both peptides enhanced the secretion of (3)H-labeled phospholipids by 140% and (14)C-labeled HDL-cholesterol (HDL-C) by 35% but had no significant effect on the total cholesterol mass or secretion. These results indicate that class L and class A peptides cause redistribution of cholesterol among lipoproteins in favor of HDL-C. Both peptides remodeled apoA-I-containing particles forming prebeta- as well as alpha-HDL. This study suggests that increased secretion of phospholipids and apoA-I and the formation of prebeta-HDL particles might contribute to the antiatherogenic properties of these peptides.     

Growth-associated glycosylation of transferrin secreted by HepG2 cells.

Growth-associated alterations in the oligosaccharide structures of transferrin secreted by HepG2 cells were examined by concanavalin A-crossed affinoimmuno-electrophoresis. Slowly dividing, confluent cultures produced transferrin with a approximately 4.5-fold greater proportion of biantennary complex-type oligosaccharides than rapidly dividing, subconfluent cultures. The activity of N-acetylglucosaminyltransferase V (GlcNAc-T V) and galactosyltransferase were measured in cell extracts from subconfluent and confluent cultures. While the activity of galactosyltransferase remained relatively constant, the activity of GlcNAc-T V was approximately 3.2-fold lower in confluent cultures than in subconfluent cultures. These results suggest that the growth-associated alteration in the oligosaccharides of transferrin is due, at least in part, to the regulation of GlcNAc-T V activity.     

Characterization of apoA-I-containing lipoprotein subpopulations secreted by HepG2 cells

Recent immunoaffinity studies demonstrate two populations of high density lipoprotein (HDL) particles: one contains both apolipoprotein (apo) A-I and A-II [Lp(A-I w A-II)], and the other contains apoA-I but no A-II [Lp(A-I w/o A-II)]. To investigate whether these two populations are derived from different precursors, we applied sequential immunoaffinity chromatography to study the lipoprotein complexes in HepG2 conditioned serum-free medium. The apparent secretion rates of apoA-I, A-II, E, D, A-IV, and lecithin:cholesterol acyltransferase (LCAT) were 4013 +/- 1368, 851 +/- 217, 414 +/- 64, 171 +/- 51, 32 +/- 14, and 2.9 +/- 0.7 ng/mg cell protein per 24 h, respectively (n = 3-5). Anti-A-II removed all apoA-II but only 39 +/- 5% (n = 5) apoA-I from the medium. These HepG2 Lp(A-I w A-II) also contained 31 +/- 1% (n = 5) of the apoD and 82 +/- 2% (n = 3) of the apoE in the medium. The apoE existed both as E and E-A-II complex. Lipoproteins isolated from the apoA-II-free medium by anti-A-I contained, besides apoA-I, 60 +/- 3% of the medium apoD and trace quantities of apoE. The majority of HepG2 apoA-IV (78 +/- 4%) (n = 3) and LCAT (85 +/- 6%) (n = 3) was not associated with either apoA-I or A-II. HepG2 Lp(A-I w A-II) contained relatively more lipids than Lp(A-I w/o A-II) (45 vs. 37%).(ABSTRACT TRUNCATED AT 250 WORDS)     

Transport of beta-very low density lipoproteins and chylomicron remnants by macrophages is mediated by the low density lipoprotein receptor pathway

The receptor-mediated uptake of rat hypercholesterolemic very low density lipoproteins (beta VLDL) and rat chylomicron remnants was studied in monolayer cultures of the J774 and P388D1 macrophage cell lines and in primary cultures of mouse peritoneal macrophages. Uptake of 125I-beta VLDL and 125I-chylomicron remnants was reduced 80-90% in the presence of high concentrations of unlabeled human low density lipoproteins (LDL). Human acetyl-LDL did not significantly compete at any concentration tested. Uptake of 125I-beta VLDL and 125I-chylomicron remnants was also competitively inhibited by specific polyclonal antibodies directed against the estrogen-induced LDL receptor of rat liver. Incubation in the presence of anti-LDL receptor IgG, but not nonimmune IgG, reduced specific uptake greater than 80%. Anti-LDL receptor IgG, 125I-beta VLDL, and 125I-chylomicron remnants bound to two protein components of apparent molecular weights 125,000 and 111,000 on nitrocellulose blots of detergent-solubilized macrophage membranes. Between 70-90% of 125I-lipoprotein binding was confined to the 125,000-Da peptide. Binding of 125I-beta VLDL and 125I-chylomicron remnants to these proteins was competitively inhibited by anti-LDL receptor antibodies. Comparison of anti-LDL receptor IgG immunoblot profiles of detergent-solubilized membranes from mouse macrophages, fibroblasts, and liver, and normal and estrogen-induced rat liver demonstrated that the immunoreactive LDL receptor of mouse cells is of a lower molecular weight than that of rat liver. Incubation of J774 cells with 1.0 micrograms of 25-hydroxycholesterol/ml plus 20 micrograms of cholesterol/ml for 48 h decreased 125I-beta VLDL uptake and immuno- and ligand blotting to the 125,000- and 111,000-Da peptides by only 25%. Taken together, these data demonstrate that uptake of beta VLDL and chylomicron remnants by macrophages is mediated by an LDL receptor that is immunologically related to the LDL receptor of rat liver.     

Regulation of the hepatic removal of chylomicron remnants and beta-very low density lipoproteins in the rat.

The contribution of the low density lipoprotein (LDL) receptor to the removal of chylomicron remnants was determined in vitro and in vivo by using interventions that up- or down-regulate the LDL receptor but not the LDL receptor-related protein (LRP). In vitro, chylomicron remnants and beta-very low density lipoprotein (VLDL) bind to the LDL receptor on endosomal membranes; their binding can be competed by LDL and beta-VLDL and the binding capacity is greatly augmented in membranes from estradiol-treated rats. Likewise, estradiol treatment almost doubled the removal of chylomicron remnants during a single pass through perfused rat livers. However, in vivo the removal of chylomicron remnants and beta-VLDL was very rapid even in untreated rats so that the effect of the stimulation by estradiol was barely detectable when trace amounts of lipoproteins were injected. Yet, when saturating doses of either lipoprotein were injected, the effect of estradiol treatment on the removal of chylomicron remnants and beta-VLDL was readily disclosed. In rats fed a diet containing lard, cholesterol, and bile acids, removal of chylomicron remnants or beta-VLDL was significantly retarded. Likewise, perfused livers from diet-fed rats removed only a mean of 16% of chylomicron remnants during a single passage as compared to 29% in livers from control animals. Also, when large doses of beta-VLDL had been infused into rats for 4 h, in subsequent perfusions of the livers the removal of chylomicron remnants was decreased to 11%. From these results it is concluded that the LDL receptor mediates the hepatic removal of a major fraction of chylomicron remnants and beta-VLDL.     

Low density lipoprotein-receptor plays a major role in the binding of very low density lipoproteins and their remnants on HepG2 cells.

The binding to HepG2 cells of very low density lipoproteins (VLDL) and their remnants (IDL) was alternatively, in the past, attributed to the low density lipoprotein receptor (LDLr) or to an apoE-specific receptor. In order to resolve this issue, we have compared the binding of those lipoproteins labelled with iodine-125 to normal and LDLr deficient HepG2 cells. Those deficient cells were obtained by a constitutive antisense strategy and their LDLr level is 14% the level of normal HepG2 cells. By saturation curve analysis, we show that VLDL and IDL bind to high and low affinity sites on cells. The low affinity binding was eliminated by conducting the assay in presence of a 200-fold excess of HDL3 respective to the concentrations of 125I-labelled VLDL and IDL. For 125I-VLDL high affinity binding to normal HepG2 cells, we found a dissociation constant (Kd) of 21.2 +/- 3.7 micrograms prot./ml (S.E., N = 5) and a maximal binding capacity (Bmax) of 0.0312 +/- 0.0063 microgram prot./mg cell prot, while we have measured a Kd of 5.3 +/- 0.8 and a Bmax of 0.0081 +/- 0.0014 with LDLr deficient cells. This indicates that LDLr is responsible for 74% of VLDL binding to HepG2 cells and that the non-LDLr high affinity receptor has a higher affinity for VLDL than LDLr. A 53% loss of 125I-IDL binding capacity was measured with LDLr deficient cells compared with normal cells (Bmax: 0.028 +/- 0.005 versus 0.059 +/- 0.006), while no significant statistical difference was found between affinities. The study shows that the LDLr is almost the only contributor in VLDL binding, while it shares IDL binding capacity with another high affinity receptor. The physiological importance of LDLr is confirmed by an almost equivalent loss of IDL and VLDL degradation in LDLr deficient cells.     

Incorporation of lycopene into chylomicron remnant-like particles inhibits their uptake by HepG2 cells

The influence of the incorporation of the antioxidant tomato pigment, lycopene, into chylomicron remnant-like particles (CRLPs) on their uptake by the liver cells was investigated. CRLPs or CRLPs containing lycopene (lycCRLPs) radiolabelled with [³H]triacylglycerol were incubated with cells of the human liver hepatoma cell line, HepG2, and the radioactivity taken up by the cells was determined. LycCRLPs were taken up significantly more slowly than CRLPs over a concentration range of 5-60 μg cholesterol/ml and a time course of 2-6 h. Pre-incubation of the hepatocytes with an excess of low density lipoprotein (LDL) inhibited the uptake of CRLPs by about 50%, but had no effect on the uptake of lycCRLPs, and under these conditions the CRLPs and lycCRLPs were taken up at similar rates. In HepG2 cells pre-treated with suramin, which inhibits uptake via the LDL receptor-related protein (LRP), the uptake of CRLPs was also inhibited (− 37%) to a greater extent than that of lycCRLPs (− 24%), so that the values for the two types of particle were no longer significantly different. Heparinase increased the uptake of lycCRLPs (about 2 fold), but not CRLPs, bringing it to a level equivalent to that seen with the control particles. These findings demonstrate that the incorporation of lycopene into CRLPs decreases their uptake by HepG2 cells and suggest that this effect is due to differential interaction with the LDL receptor and the LRP-receptor-mediated pathways, and may also involve binding of the particles to HSPG.     

The fatty acid composition of chylomicron remnants influences their binding and internalization by isolated hepatocytes.

The binding and internalization of (125)I-labelled chylomicron remnants derived from palm, olive, corn, or fish oil (rich in saturated, monounsaturated, n-6, or n-3 polyunsaturated fatty acids, respectively) by hepatocytes from rats fed a low-fat diet or a diet supplemented with the corresponding fat for 21 days was investigated. In hepatocytes from rats fed the low-fat diet, the association of radioactivity with the cells at 4 degrees C (a measure of initial binding only) was similar with all types of remnants tested, but was more rapid at 37 degrees C (a measure of binding plus internalization) when fish oil, as compared to olive, corn or palm oil remnants, was used, and similar differences in the internalization of the particles were observed. In contrast, when hepatocytes from rats fed the fat-supplemented diets were used, the rate of association at 37 degrees C of remnants with cells from rats fed palm, corn or fish oil was similar, and higher than that found with cells from animals fed olive oil, and in this case these differences were mainly due to changes in the binding of the particles to the cells at 4 degrees C. Both excess low-density lipoprotein (LDL), which inhibits remnant uptake by the LDL receptor, and lactoferrin, which blocks the LDL receptor-related protein (LRP), were found to decrease the association of the remnants with cells from rats fed the low-fat and high-fat diets. However, in hepatocytes from animals given the low-fat diet, most of the differences between the various types of particle were retained in the presence of lactoferrin, but abolished in the presence of LDL. In contrast, in cells from rats fed the high-fat diets, the differences were reduced by both lactoferrin and LDL. These findings demonstrate that the hepatic uptake of chylomicron remnants is influenced both by the fatty acid composition of the particles, and by longer-term adaptive changes in liver tissue, and suggest that the former effects are mediated mainly by the LDL receptor, while the latter may involve both the LDL receptor and the LRP.     

Toxicological biomarkers of 2,3,4,7,8-pentachlorodibenzofuran in proteins secreted by HepG2 cells

Using a proteomic approach, a study was conducted for determination of the effects of 2,3,4,7,8-pentachlorodibenzofuran (2,3,4,7,8-PCDF) on proteins secreted by HepG2 cells. Briefly, HepG2 cells were exposed to various concentrations of 2,3,4,7,8-PCDF for 24 or 48h. MTT and comet assays were then conducted for determination of cytotoxicity and genotoxicity, respectively. Results of an MTT assay showed that 1nM of 2,3,4,7,8-PCDF was the maximum concentration that did not cause cell death. In addition, a dose- and time dependent increase of DNA damage was observed in HepG2 cells exposed to 2,3,4,7,8-PCDF. Therefore, two different concentrations of 2,3,4,7,8-PCDF, 1 and 5nM, were selected for further analysis of proteomic biomarkers using two different pI ranges (4-7 and 6-9) and large two dimensional gel electrophoresis. Results showed identification of 32 proteins ( 29 up- and 3 down-regulated) by nano-LC-ESI-MS/MS and nano-ESI on a Q-TOF2 MS. Among these, the identities of pyridoxine-5'-phosphate oxidase, UDP-glucose 6-dehydrogenase, plasminogen activator inhibitor I precursor, plasminogen activator inhibitor-3, proteasome activator complex subunit 1, isoform 1 of 14-3-3 protein sigma, peptidyl-prolyl cis-trans isomerase A, 14-3-3 protein gamma, protein DJ-1, and nucleoside diphosphate kinase A were confirmed by western blot analysis. The differential expression of protein DJ-1, proteasome activator complex subunit 1 and plasminogen activator inhibitor-3 was further validated in plasma proteins from rats exposed to 2,3,4,7,8-PCDF. These proteins could be used as potential toxicological biomarkers of 2,3,4,7,8-PCDF.     

Toxicological biomarkers of 2,3,4,7,8-pentachlorodibenzofuran in proteins secreted by HepG2 cells

Using a proteomic approach, a study was conducted for determination of the effects of 2,3,4,7,8-pentachlorodibenzofuran (2,3,4,7,8-PCDF) on proteins secreted by HepG2 cells. Briefly, HepG2 cells were exposed to various concentrations of 2,3,4,7,8-PCDF for 24 or 48 h. MTT and comet assays were then conducted for determination of cytotoxicity and genotoxicity, respectively. Results of an MTT assay showed that 1 nM of 2,3,4,7,8-PCDF was the maximum concentration that did not cause cell death. In addition, a dose- and time dependent increase of DNA damage was observed in HepG2 cells exposed to 2,3,4,7,8-PCDF. Therefore, two different concentrations of 2,3,4,7,8-PCDF, 1 and 5 nM, were selected for further analysis of proteomic biomarkers using two different pI ranges (4-7 and 6-9) and large two dimensional gel electrophoresis. Results showed identification of 32 proteins ( 29 up- and 3 down-regulated) by nano-LC-ESI-MS/MS and nano-ESI on a Q-TOF2 MS. Among these, the identities of pyridoxine-5'-phosphate oxidase, UDP-glucose 6-dehydrogenase, plasminogen activator inhibitor I precursor, plasminogen activator inhibitor-3, proteasome activator complex subunit 1, isoform 1 of 14-3-3 protein sigma, peptidyl-prolyl cis-trans isomerase A, 14-3-3 protein gamma, protein DJ-1, and nucleoside diphosphate kinase A were confirmed by western blot analysis. The differential expression of protein DJ-1, proteasome activator complex subunit 1 and plasminogen activator inhibitor-3 was further validated in plasma proteins from rats exposed to 2,3,4,7,8-PCDF. These proteins could be used as potential toxicological biomarkers of 2,3,4,7,8-PCDF.     

The uptake of chylomicron remnants and very low density lipoprotein remnants by the perfused rat liver

The regulation of the hepatic uptake of chylomicron remnants and very-low-density lipoprotein (VLDL) remnants was studied in the rat using a nonrecirculating liver perfusion system. The hepatic removal of remnant lipoproteins was shown to be by receptor-mediated processes since the concentration-dependent uptake was saturable and reductive methylation of the particles reduced the uptake of each lipoprotein by two-thirds. Treatment of liver donor rats with 17 alpha-ethinyl estradiol resulted in a 2-fold increase in the hepatic uptake of VLDL remnants, while cholesterol feeding of liver donor rats caused complete suppression of the receptor-mediated uptake of VLDL remnants. Chylomicron remnant removal was unaffected by estradiol administration and only slightly diminished by cholesterol feeding. The results of competition studies also indicated that a specific chylomicron remnant receptor exists in the liver. Apoprotein E was shown to be required for the receptor-mediated uptake of both remnant lipoproteins. Chylomicron remnants which contained no apoprotein E and VLDL remnants which contained reductively methylated apoprotein E were removed by the liver to about one-third of the extent of native particles. Thus the hepatic uptake of remnant lipoproteins occurs by receptor-mediated processes and the specific removal of both particles is mediated by apoprotein E. In addition, the uptake of VLDL remnants is regulated by the same factors that control hepatic low-density lipoprotein removal, while chylomicron remnant removal is unaffected by these factors.     

Oxidation affects the regulation of hepatic lipid synthesis by chylomicron remnants

The effects of native and oxidized chylomicron remnants on lipid synthesis in normal and oxidatively stressed liver cells were investigated using MET murine hepatocytes (MMH cells), a nontransformed mouse hepatocyte cell line that maintains a highly differentiated hepatic phenotype in culture. Lipid synthesis was determined by measuring the incorporation of [(3)H]oleate into cholesteryl ester, triacylglycerol, and phospholipid by the cells. The formation of cholesteryl ester and phospholipid was decreased by chylomicron remnants in a dose-dependent manner, while triacylglycerol synthesis was increased. Exposure of MMH cells to mild oxidative stress by incubation with CuSO(4) (2.5 microM) for 24 h led to significantly increased incorporation of [(3)H]oleate into triacylglycerol and phospholipid, but not cholesteryl ester, in the absence of chylomicron remnants. In the presence of the lipoproteins, however, similar effects to those found in untreated cells were observed. Oxidatively modified chylomicron remnants prepared by incubation with CuSO(4) (10 microM, 18 h, 37 degrees C) did not influence cholesteryl ester or phospholipid synthesis in MMH cells, but had a similar effect to that found with native remnants on triacylglycerol synthesis. These findings show that hepatic lipid metabolism is altered by exposure to mild oxidative stress and by lipids from the diet delivered to the liver in chylomicron remnants, and these effects may play a role in the development of atherosclerosis.     

PLTP secreted by HepG2 cells resembles the high-activity PLTP form in human plasma

Plasma phospholipid transfer protein (PLTP) is an important regulator of plasma HDL levels and HDL particle distribution. PLTP is present in plasma in two forms, one with high and the other with low phospholipid transfer activity. We have used the human hepatoma cell line, HepG2, as a model to study PLTP secreted from hepatic cells. PLTP activity was secreted by the cells into serum-free culture medium as a function of time. However, modification of a previously established ELISA assay to include a denaturing sample pretreatment with the anionic detergent sodium dodecyl sulphate was required for the detection of the secreted PLTP protein. The HepG2 PLTP could be enriched by Heparin-Sepharose affinity chromatography and eluted in size-exclusion chromatography at a position corresponding to the size of 160 kDa. PLTP coeluted with apolipoprotein E (apoE) but not with apoB-100 or apoA-I. A portion of PLTP was retained by an anti-apoE immunoaffinity column together with apoE, suggesting an interaction between these two proteins. Furthermore, antibodies against apoE but not those against apoB-100 or apoA-I were capable of inhibiting PLTP activity. These results show that the HepG2-derived PLTP resembles in several aspects the high-activity form of PLTP found in human plasma.     

Comparison of the metabolism of chylomicrons and chylomicron remnants by the perfused liver

1. The hepatic metabolism of chylomicrons and chylomicron remnants was compared after adding approximately equal numbers of each lipoprotein particle to the perfusate of isolated livers. 2. At least 40% of the added remnants were metabolized by the liver compared with less than 3% for chylomicrons. 3. There was significantly more net removal of labelled remnants than of chylomicrons by the liver. 4. A greater proportion of labelled cholesterol than of labelled triacylglycerol fatty acids was transferred to the liver from each lipoprotein. 5. Cholesteryl esters of remnants were hydrolysed to triacylglycerol fatty lipoprotein. 5. Cholesteryl esters of remnants were hydrolysed to triacylglycerol fatty acids of remnants were oxidized to CO2 more extensively than those of chylomicrons. 6. There was greater oxidation of remnant glycerolipic [(1(-14)C]oleate than of glycerolipid [1(-14)C]palmitate. 7. A large fraction of the fatty acids of remnants, but not of chylomicrons, was transferred to phospholipids, which were released by the liver in a lipoprotein of relative density less than 1.006. 8. Label from remnants, but not from chylomicrons, was found in lipoproteins of relative density greater than 1.006, which were not released during perfusion but could be flushed out from the liver at the end of perfusion.     

Studies on the assembly of apo B-100-containing lipoproteins in HepG2 cells

The relationship between apoB-100 and the membrane of the endoplasmic reticulum (ER) has been studied by a combination of pulse-chase methodology and subcellular fractionation. HepG2 cells were pulse-labeled with [35S]methionine for 3 min and chased with cold methionine for periods between 0 and 20 min. ApoB-100 and albumin, present in the membrane as well as in the luminal content of the ER vesicles, were isolated after each chase period. The results indicated that apoB-100 was cotranslationally bound to the membrane of the ER, and from this membrane-bound form, was transferred to the lumen after a delay of 10-15 min. Albumin was, as could be expected for a typical secretory protein, cotranslationally sequestered in the lumen of the ER. Apo-B-100-containing lipoproteins present in the microsomal lumen were analyzed by ultracentrifugation in a sucrose gradient. ApoB-100 occurred on rounded particles in three density regions: (i) d 1.1065-1.170 g/ml (Fraction I), (ii) d 1.011-1.045 g/ml (Fraction II), and (iii) d less than 1.011 g/ml (Fraction III). Fraction I, isolated from cells cultured in the absence of oleic acid, contained a homogenous population of particles with a mean diameter of approximately 200 A. Fraction I isolated from cells cultured in the presence of oleic acid was slightly more heterogeneous and had a mean diameter of approximately 250 A. Fractions II and III had mean diameters of 300 and 500 A, respectively. Cholesterol esters and triacylglycerol were the quantitatively dominating lipid constituents of all three fractions. Pulse-chase experiments indicated that Fraction I contained the newly assembled lipoproteins. With increasing chase time, the apoB-100 radioactivity was redistributed from Fraction I to Fractions II and III, indicating that Fraction I is converted into Fractions II and III during the intracellular transfer. Particles corresponding to Fractions II and III were by far the most abundant lipoproteins found in the medium. The results presented support the possibility of a sequential assembly of apoB-100-containing lipoproteins.     

Effect of chylomicron remnants on cholesterol metabolism in cultured rabbit hepatocytes: production of very low density lipoproteins and bile acids

Primary cultures of rabbit hepatocytes were used to investigate the effect of purified (B-100 free) chylomicron remnants (CR) on lipid and bile acid metabolism. ApoB-100-containing lipoproteins were removed from the CR-enriched plasma fraction by affinity column chromatography on Sepharose 4B conjugated with anti-apoB-100 monoclonal antibodies. CR were shown to stimulate the accumulation of neutral lipids in hepatocytes in a dose-response manner. After 24-hour preincubation of rabbit hepatocytes with 50 micrograms protein/ml CR the cellular neutral lipid content increased: 1.9-4-fold for triglycerides, 1.5-3.7-fold for free cholesterol and 1.5-2.5-fold for esterified cholesterol. This accumulation was accompanied by a decreasing incorporation of [14C] acetate into cholesterol (80-90%) and triglycerides (70-80%). At the same time the incorporation of [14]oleate into triglycerides increased by 50-65%. The inhibited biosynthesis of fatty acids might account for this effect. No effect of CR on cholesterol esterification by [14C]oleate was observed. CR increased the amount of triglycerides and free cholesterol secreted in very low density lipoproteins (VLDL). The secretion of taurocholic acid was decreased. These data confirm our hypothesis that dietary cholesterol is preferentially secreted by hepatocytes within VLDL but is not accumulated as cholesterol esters or oxidized to bile acids.     

Clearance of chylomicron remnants by the low density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor.

The involvement of the low density lipoprotein receptor-related protein (LRP) in chylomicron remnant (CR) catabolism was investigated. Ligand blot analyses demonstrated that beta-very low density lipoproteins (beta-VLDL) incubated with apolipoprotein E (beta-VLDL+E) bound to the LRP and low density lipoprotein receptors, whereas active (receptor-binding) alpha 2-macroglobulin (alpha 2M) bound only to LRP partially purified from rat liver membranes. Iodinated beta-VLDL+E and active alpha 2M showed high affinity binding to the LRP/alpha 2M receptor of low density lipoprotein receptor-negative fibroblasts. The binding and degradation of radiolabeled alpha 2M by these cells were partially inhibited by beta-VLDL+E. Furthermore, alpha 2M interfered with the internalization of beta-VLDL+E and subsequent induction in the cholesterol esterification by these cells. These studies suggested that remnant lipoproteins and active alpha 2M compete for binding to the LRP/alpha 2M receptor. Next, we examined whether the LRP/alpha 2M receptor plays a role, in the presence of low density lipoprotein receptors, in the in vivo catabolism of CR in mice. In vivo studies demonstrated that the unlabeled active, but not the native, alpha 2M partially inhibited the plasma clearance and hepatic uptake of radiolabeled CR or apoE-enriched radiolabled CR. Likewise, apoE-enriched CR retarded the plasma clearance and hepatic uptake of radiolabeled active alpha 2M. These studies provide physiological evidence that the LRP/alpha 2M receptor may function as a CR receptor that removes CR from the plasma.