Plasma clearance of chylomicrons from butterfat is not dependent on saturation: studies with butterfat fractions and other fats containing triacylglycerols with low or high melting points.

BACKGROUND: Dietary fats influence plasma lipids, and changes in the clearance and metabolism of postprandial lipoproteins can affect atherosclerosis. Butterfat is considered hypercholesterolemic but contains a multitude of constituent fatty acids. OBJECTIVES: We determined triacylglycerol and cholesteryl ester clearances of lymph chylomicrons derived from butterfat, fractions of butterfat, and other dietary fats. METHODS: Radiolabeled lymph chylomicrons resulting from the intestinal absorption of different fats were reinjected into recipient rats to measure plasma clearance. Plasma clearance of [14C]triacylglycerol was used as an indicator of chylomicron lipolysis whereas clearance of [3H]cholesteryl ester was used as an indicator of chylomicron remnant removal. RESULTS: [3H]Cholesteryl ester clearance was slower from chylomicrons derived from a solid, high-saturated-butterfat fraction than from whole butterfat, but clearance of chylomicrons from other fractions did not correlate with the fractions' saturated fatty acid contents. Clearance of cholesteryl esters in chylomicrons derived from cocoa butter, palm oil, and butterfat was slower than clearance of cholesteryl esters in chylomicrons derived from safflower oil. Hepatic uptakes of cholesteryl esters were generally lower for chylomicrons from all butterfat fractions, cocoa butter, and palm oil. CONCLUSIONS: In contrast with minor effects on the lipolysis of chylomicron triacylglycerols, chylomicron remnant removal was strongly influenced by the type of dietary fat, with slower cholesteryl ester clearances for saturated fats with higher melting points. However, remnant removal and hepatic uptake of chylomicrons from whole butterfat and fractions of butterfat were not correlated with fat saturation. The mechanisms of this apparent paradox remain unknown but may be attributable to acyl arrangements in the lipid classes of chylomicrons that influence the association with apolipoproteins and receptors and hence remnant removal.

The diurnal rhythms of cholesterol metabolism and plasma clearance of model chylomicrons: comparison of normal and genetically hypercholesterolemic rats (RICO).

Previous studies showed a slower clearance of cholesterol-labeled lymph chylomicrons in genetically hypercholesterolemic rats (RICO) compared with normocholesterolemic rats. In this study, we compared rates of lipolysis and remnant clearance in RICO versus control normocholesterolemic rats of the same strain (RAIF) or with control Wistar rats, by injecting chylomicron-like lipid emulsions labeled with 14C-triolein to trace lipolysis, and 3H-cholesteryl ester to trace remnant clearance. Our findings showed slower clearance of chylomicron remnants in RICO compared with control RAIF or with control Wistar rats. During the light period, the clearance of lipids from chylomicron-like lipid emulsions injected intravenously was significantly slower in RICO rats compared with normocholesterolemic control rats of the same strain, RAIF. Within the RICO group, clearance of emulsion triolein (TO) was faster during the dark period compared with the light period. In contrast, however, the clearance of the emulsion remnants traced by cholesteryl oleate (CO) was slower during the dark period. This behaviour was not found within the Wistar group, where the clearances of TO and CO were similar in the light and dark period. Hepatic clearance of chylomicron remnants is mediated primarily by the low density lipoprotein (LDL) receptor, the expression of which shows diurnal variation. In both Wistar and RICO rats, the expression of LDL receptors was highest during the dark period. The LDL receptors in hepatic microsomal membranes from RICO rats migrated faster on SDS polyacrylamide gel electrophoresis when compared with normal Wistar and the RAIF. However in hepatic plasma membranes the LDL receptors from RICO and Wistar rats appeared identical after immunoblotting. Furthermore the LDL receptors from RICO and Wistar rats responded similarly to treatment with neuraminidase. An alteration in post-translational processing of the LDL receptor could possibly account for the slower clearance of chylomicron remnants in the RICO.

Culture and characterization of smooth muscle cells from porcine retinal microvessels.

PURPOSE: To establish long-term cultures of retinal vascular smooth muscle cells for future studies of their functions under normal and diseased conditions. METHODS: Smooth muscle cells (SMC) from porcine retinal microvessels were isolated and cultured. RESULTS: Cells in culture retained the common biochemical characteristics of SMC propagated from other sources. The cells were large, polygonal, spindle shaped and demonstrated the presence of smooth muscle-specific alpha-actin. Post-confluent cultures showed the 'hill and valley' multilayer growth characteristics. However, the growth rate was lower and the population doubling time was significantly larger than those reported for SMC propagated from big vessels. CONCLUSION: Retinal vascular SMC could be cultured separately from other cell types. The availability of this culture provides a unique model for functional and metabolic studies of the retinal vessels.

Chylomicron remnant uptake is regulated by the expression and function of heparan sulfate proteoglycan in hepatocytes.

Chylomicron remnants transport cholesterol from the intestine, and are removed from the circulation principally by the liver. While hepatic receptors, including the low density lipoprotein (LDL) receptor account for endocytosis, heparan sulfate proteoglycans (HSPG) participate in the initial binding of remnants to liver cells. To explore the interactions between HSPG and endocytosis of remnants, in the present study the expression of HSPG was inhibited in HepG2 cells transfected by a synthetic antisense oligodeoxynucleotide SYN5. Immunofluorescent staining by a monoclonal anti-syndecan antibody showed significant reduction in the expression of syndecan in SYN5-treated cells compared with control cells. Remnant binding decreased by about 50-70% in SYN5-transfected cells. Monoclonal antibodies to either heparan sulphate or the LDL receptor decreased binding by about 60-65%. The glycosylation inhibitor beta-nitrophenylxylopyranoside inhibited remnant uptake by 25%, whereas 4-nitrophenyl-beta-D-galactopyranoside had no effect on remnant binding. Heparinase completely abolished binding at appropriate concentrations. Heparitinase was less effective than hep arinase in inhibiting remnant binding. Suramin completely abolished the remnant binding. Poly-arginine, poly-lysine, and protamine all reduced remnant uptake by the cells, as did polybrene, a synthetic polycation, suggesting a role of cation-anion interactions in remnant binding. Brefeldin A, colchicine, and monensin caused the fluorescence associated with remnants to persist within the cells, confirming that blockers of tubulovesicular processes and Golgi function inhibit the intracellular transport and degradation of the remnants. Our results show that remnant binding to liver cells depends on the LDL receptor, on the expression of HSPG core proteins, and on the functionality of heparan sulfate in HSPG.

Sterol side chain length and structure affect the clearance of chylomicron-like lipid emulsions in rats and mice.

In previous work we found that sterols such as cholesterol were essential for physiological plasma clearance of lipid emulsions mimicking the structure of mammalian triglyceride-rich lipoproteins. In the present study we compared the clearances of emulsions prepared with sterols of varying alkyl chain length (straight chains, n-C3 to n-C7, or branched chains, i-C5 to i-C10) at the C-17 position. Our studies show that the length of the alkyl chain at the C-17 position of sterols markedly affects the removal of remnant particles from the plasma of rats traced by emulsion cholesteryl oleate label. An alkyl chain of 7 carbons or more was needed for normal remnant clearance. Straight and branched chains of similar length were cleared similarly, showing that the presence of a branch at the end of the alkyl chain had no effect on remnant clearance. For side chains of 7 carbons or less, substitution of sterols with an unsaturation in the alkyl chain close to the terminal carbon markedly decreased the clearance of remnants. Triolein label was used to estimate lipolysis of the injected emulsions. Lipolysis was little affected by the structure of the sterol side chain, except that lipolysis was markedly higher with emulsions containing sterols with an alkyl chain having 4 carbon atoms (n-C4) or with an unsaturation in the 4 carbon alkyl chain. We conclude that the length of the alkyl side chain is an important element in the essentiality of cholesterol as a regulator of metabolism of lipid emulsion models of triglyceride-rich lipoproteins.

Use of gene-manipulated models to study the physiology of lipid transport.

1. In vivo and in vitro gene-manipulated models were used to study the metabolism of chylomicron remnants. Transgenic mice expressing human apolipoprotein (Apo) A1 or E4, gene knockout mice deficient in ApoE or low density lipoprotein (LDL) receptors and antisense gene inhibition in HepG2 cells were used to evaluate the effect of gene manipulations on the metabolism of chylomicron remnants. 2. Mice transgenic for human ApoE4 showed accelerated clearance of chylomicron-like emulsions when animals were fed a low-fat diet. When challenged by a high-fat diet, remnant clearance in ApoE4 transgenic mice was delayed, as in normal or non-transgenic controls. However, unlike normal nontransgenic controls, in ApoE4 transgenic mice high density lipoprotein (HDL)-cholesterol levels remained high after high-fat feeding, which probably protected the animals from the development of atherosclerosis. In contrast, clearance of chylomicron-like lipid emulsions was not affected by the over-expression of human ApoAI in transgenic mice. 3. Gene knock-out mice deficient in ApoE or deficient in the LDL receptor were used to show that ApoE and LDL receptors are both essential for the normal, fast catabolism of chylomicron remnants by the liver. In the absence of the LDL receptor, an alternative ApoE-dependent pathway operates to clear chylomicrons from the plasma, with significantly delayed catabolism. 4. Antisense gene inhibition techniques were used to suppress the expression of syndecan, a core protein of heparan sulfate proteoglycan, in HepG2 cells. Remnant uptake in cells transfected with the antisense oligodeoxynucleotide complementary to a 20 nucleotide sequence upstream of the initiation site of syndecan cDNA markedly reduced the uptake of chylomicron remnant.

Effect of the ACAT inhibitor CL 277,082 on apolipoprotein B48 transport in mesenteric lymph and on plasma clearance of chylomicrons and remnants.

Inhibitors of acyl CoA:cholesterol acyltransferase (ACAT) activity previously have been found to decrease the absorption of cholesterol and to be effective antiatherosclerotic agents. Effects on chylomicron (CM) transport could contribute to these effects. No previous study has examined the effect of inhibition of ACAT activity on the intestinal lymph output of apolipoprotein (apo) B48 or on the clearance from plasma of lymph CM. In this study, we selected 2,4-difluoro-phenyl-N[[4-(2,2-dimethylpropyl)phenyl]methyl]-N-( hepthyl)urea (CL 277,082) to inhibit intestinal ACAT activity and measured its effects on the output of lipids and apo B48 in intestinal lymph. Compared with control untreated rats, treatment with CL 277,082 decreased the lymph outputs of apo B48 and triglyceride. Associated with the effects on transport, the lymph CM were smaller in diameter in rats treated with CL 277,082. The unesterified cholesterol content of lymph CM was markedly increased and the cholesteryl ester (CE) content was decreased. The contents of triglyceride were decreased and phospholipid was increased. Labeled CM were prepared by feeding donor rats with a test meal containing 3H-cholesterol and 14C-fatty acid. Traced by the CE label in lymph CM in both control rats and rats treated with CL 277,082, the remnants derived after intravenous injection of CM from rats treated with CL 277,082 were cleared significantly more slowly than CM from untreated rats. Moreover, less CE label was recovered in the livers of both groups of rats after injection of CM from rats treated with CL 277,082. Recovery in the spleen was significantly higher in recipient rats injected with CM from rats treated with CL 277,082 when compared with injections of CM obtained from untreated rats. We conclude that the metabolism of CM is affected by treatment with CL 277,082, partly due to the changes in lymph CM composition and partly due to other effects on the recipient rat.

Effects of particle size and number on the plasma clearance of chylomicrons and remnants.

Lymph chylomicrons of different sizes are known to be cleared at different rates, but the underlying mechanism for this effect has not been resolved. To investigate the differences in clearance rates between small and large particles, chylomicron-like lipid emulsions labeled with radioactive triolein and cholesteryl oleate were injected into conscious rats. The clearance from plasma of small emulsion particles was significantly slower than large when equal lipid masses of small and large particles were injected. Similar results were obtained in clearance studies with lymph chylomicrons. When equal numbers of either small or large emulsion particles were injected into rats, the clearance of the triolein label from large particles was significantly slower than small particles but no significant difference was found in the clearance of the remnants (traced by the cholesteryl oleate label) derived from small and large particles. However, when increased numbers of either small or large particles were injected, the clearances of emulsion triolein and remnants were significantly decreased. Larger particles were found to be lipolyzed significantly less than small. Simultaneous injections showed competition for removal of large and small particles, suggesting competition for a common, saturable removal process. Our findings provide evidence that particle number and size are determinants of the rates of plasma clearance of the triglyceride-rich lipoproteins and the results are consistent with a saturable process. Our data also show that particle number is more important than size and higher numbers of particles markedly affect the clearance of triglyceride-rich lipoproteins. However particle uptake by the liver is not sensitive to remnant size.

Vasoactive mediators affect the clearance of lipids from emulsion models of plasma lipoproteins in rats.

We wished to establish whether the haemodynamic changes accompanying alterations in blood pressure exert a direct effect on clearance of chylomicron-like emulsions. N-Nitro-L-arginine (NOLA) and endothelin-1 were used to increase the blood pressure of normotensive rats, sodium nitroprusside (NP) and calcitonin gene-related peptide (CGRP) were used to decrease the blood pressure of spontaneously hypertensive rats (SHR). The lipid emulsions contained radiolabeled triolein (TO) and cholesteryl oleate (CO) to trace plasma clearances. NP and CGRP enhanced TO clearance in the SHR but slowed the rate of CO clearance. NOLA in normotensive rats clearly slowed the rate of TO removal and also retarded CO clearance, whereas with endothelin-1 TO clearance remained unaffected and CO removal was markedly slowed. The effects on TO clearance are consistent with changes in arteriolar resistance regulating access of emulsion particles to lipoprotein lipase on the endothelial cells of capillaries in muscle and adipose tissue. The changes in CO removal rate are more difficult to interpret because factors determining hepatic blood flow are complex. The results suggest that haemodynamic changes potentially affect circulation times of various lipoprotein species in the plasma, with probable consequences in relation to atherogenesis.

Intracellular localization and metabolism of chylomicron remnants in the livers of low density lipoprotein receptor-deficient mice and apoE-deficient mice. Evidence for slow metabolism via an alternative apoE-dependent pathway.

The metabolism of chylomicron remnants in mice deficient in low density lipoprotein receptor (LDLr) or apolipoprotein E (apoE) was compared with that of control C57BL/6J mice. Mice were injected intravenously with chylomicron-like emulsions labeled with radioactive lipids. Blood samples were taken at fixed time intervals from the retro-orbital sinus, and clearance rates of the lipoproteins were assessed from the decline in plasma radioactivities. To follow the intracellular pathway of remnants in the liver, emulsions labeled with a fluorescent cholesteryl ester (BODIPY) were injected, and liver sections were processed and assayed by laser confocal microscopy. Catabolism of remnant cholesteryl esters was assessed by injecting emulsions labeled with cholesteryl[1-14C]oleate and measuring the expired CO2 from each animal. In apoE-deficient mice, remnant removal from plasma was totally impeded, while the clearance of remnants in LDLr-deficient mice was similar to that in C57BL/6J control mice. The confocal micrographs of livers 20 min after injection of fluorescent chylomicron-like emulsions showed evenly distributed fluorescent particles in the hepatocytes from control mice. In contrast, the fluorescent particles were mainly located in sinusoidal spaces in LDLr-deficient mice. Three hours after injection the livers from control mice showed few fluorescent particles, indicating that remnants have been catabolized, while the sections from LDLr-deficient mice were still highly fluorescent. Micrographs from apoE-deficient mice showed no fluorescent particles in the liver at any time after injection. Measurement of expired radioactive CO2 after injection of emulsions labeled in the fatty acid moiety of cholesteryl oleate indicated that remnant metabolism was slower in the LDLr-deficient mice and essentially nil in the apoE-deficient mice. Control mice had expired 50% of the injected label by 3 h after injection. We conclude that under normal circumstances, chylomicron remnants are rapidly internalized by LDLr and catabolized in hepatocytes, with a critical requirement for apoE. When LDLr is absent, remnants are taken up by a second apoE-dependent pathway, first to the sinusoidal space of the liver, with subsequent slow endocytosis and slow catabolism. Hepatic clearance via this second pathway is increased by heparin, inhibited by lactoferrin, heparinase, and suramin, and down-regulated by feeding a high fat diet.

Features of cholesterol structure that regulate the clearance of chylomicron-like lipid emulsions.

Cholesterol is an absolute requirement for the clearance from plasma of the remnants of triglyceride-rich lipoproteins. Our laboratory previously established that cholesterol was essential for the hepatic uptake of remnant particles after intravenous injection of chylomicron-like lipid emulsions (1). The aim of the present study was to determine the structural features of the cholesterol molecule that regulate the metabolism of chylomicrons. Chylomicron-like lipid emulsions, which reflect the size and composition and mimic the physiology of lymph chylomicrons, were prepared with tracer amounts of labeled triolein ([14C]TO) and cholesteryl oleate ([3H]CO) to follow the hydrolysis of triglyceride and the uptake of chylomicron remnant particles by the liver. Sterols selected as cholesterol congeners with functional group variations were incorporated into the emulsions in place of cholesterol and injected intravenously in rats. Control emulsions contained either no cholesterol or approximately 1% (by weight) cholesterol. The effects of the different sterol structures on lipolysis and hepatic remnant uptake were compared with controls to determine the significance of various functional groups. Clearance of emulsion CO was impaired when cholesterol was absent or replaced by cholesteryl chloride, cholesteryl formate, or 3-keto-cholesterol. Clearance of emulsions containing epicholesterol, where the OH group at the 3-position is in the alpha configuration, was similar to control emulsions containing cholesterol. Congeners with an additional hydroxyl group, viz. 7 alpha-hydroxycholesterol, 7 beta-hydroxycholesterol, or 25-hydroxycholesterol, reduced CO clearance. Androstenol, which lacks the side chain at the C17-position, also retarded CO clearance from plasma. In contrast, emulsions incorporating congeners with side chain variations such as campesterol, beta-sitosterol, stigmasterol, or saturated congeners of cholesterol such as cholestanol, coprostanol and its epimer, epicoprostanol, all were cleared similarly to emulsions containing cholesterol. In conclusion, for physiological clearance of a chylomicron-like emulsion, the presence of a hydroxyl (-OH) group at the 3-position and an alkyl side chain at the C17-position of cholesterol are essential, while the structure of the side chain and the saturation of the ring structure are not critical. The mechanism of the specificity of sterols on the metabolism of protein-free emulsions is unclear, but does not relate to changes in microfluidity of the surface lipids, nor to the amount or isoform of associated apolipoproteins.

Kinetics and uptake in vivo of oxidatively modified lymph chylomicrons.

The metabolism of oxidized chylomicrons (ox-CMs) was investigated in vivo. CMs from rats fed corn, linseed, or fish oil were oxidized by incubation with 2,2'-azobis(2-amidinopropane)hydrochloride (AAPH) or sodium hypochlorite (NaOCl). Oxidized CMs had a rapid phase of clearance, followed by a slow phase. Clearance of ox-CMs was decreased for corn oil but increased for linseed and fish oil particles. Differences in rats of uptake between CM types or treatment were independent of the rate of remnant formation, but were instead a consequence of decreased clearance. A greater triglyceride-to-cholesteryl ester ratio in liver suggested that there was less lipolysis of ox-CM triglyceride prior to uptake. Hepatic uptake of ox-CMs was decreased, whereas there was increased uptake in spleen. However, the uptake by Kupffer cells of ox-CMs was 43% of total liver uptake after AAPH treatment and 59% after NaOCl treatment, compared with 21% for control CMs. Collectively, our data show that oxidation can have differential effects on the rate of clearance of CMs and that ox-CMs are preferentially cleared by the reticuloendothelial system.

Effect of human apoE4 on the clearance of chylomicron-like lipid emulsions and atherogenesis in transgenic mice.

Apolipoprotein (apo) E is a ligand for lipoprotein receptors and mediates the cellular uptake of several different lipoproteins. Human apoE occurs in three allelic forms designated E2, E3, and E4. The E2 isoform is associated with changes in lipoprotein metabolism, and the E4 isoform is associated with Alzheimer's disease and an increased risk of coronary heart disease. In this study transgenic mice were generated to assess the effect of a sustained increase in plasma apoE4 concentration. The transgenic animals had three- to sixfold increases in total plasma apoE, associated primarily with the non-high-density lipoprotein (HDL) fractions of plasma lipoproteins. In response to an atherogenic diet the transgenic mice developed hypercholesterolemia similar to that in nontransgenic mice but did not experience the decrease in HDL cholesterol normally observed in this strain of C57BL/6 mice. The rate of plasma clearance of a lipid emulsion mimicking lymph chylomicrons was measured in transgenic mice expressing the human apoE4 gene and compared with the clearance rate in nontransgenic control animals. In animals fed a low-fat diet the emulsion lipids were cleared significantly more rapidly from the plasma of transgenic than control mice. In animals adapted to a high-fat diet, the clearance of chylomicron remnants was slowed markedly in both transgenic and control mice and was not significantly accelerated in transgenic compared with control animals. We also investigated the effect of increasing the plasma concentration of apoE4 on the progression of atherosclerotic heart disease.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of triacylglycerol-saturated acyl chains on the clearance of chylomicron-like emulsions from the plasma of the rat.

We previously found that a single saturated acyl chain at the glycerol 2-position affected the metabolism of chylomicrons. The explanation for the effect is not clear, but could be reproduced by saturated monoacylglycerols. In the present work we have extended our measurements to several different triacylglycerols containing one or two saturated chains in specific locations in an attempt to define structural features that affect chylomicron clearance. Lipid emulsions containing triacylglycerol, egg yolk phosphatidylcholine, free cholesterol, cholesteryl oleate (CO) and labelled with 3H-CO and [14C]triolein (OOO) were prepared as models of lymph chylomicrons. When injected intravenously into rats, the metabolism of the emulsions was influenced by the acyl chains of the constituent triacylglycerols. Compared with emulsions containing OOO as the only triacylglycerol, plasma clearances of emulsion [3H]CO were extremely slow in emulsions containing either 1,2-dioleoyl-3-stearoylglycerol (OOS) or 1-stearoyl-2,3-dioleoylglycerol (SOO). As little as 10% of SOO in mixture with OOO slowed the clearance, and increasing proportions of SOO in OOO emulsions progressively slowed the removal of OOO and CO labels from plasma. With 50% and 100% SOO in the emulsions clearance was negligible. In emulsions containing the triacyl-sn-glycerols, 1,3-dimyristoyl-2-oleoylglycerol (MOM), 1,3-dipalmitoyl-2-oleoylglycerol (POP), 1-oleoyl-2,3-distearoylglycerol (OSS) or 1-palmitoyl-2-oleoyl-3-stearoylglycerol (POS), clearance rates of CO and OOO labels from plasma were significantly decreased compared with control OOO emulsions. With emulsions prepared with the triacylglycerols, 1-oleoyl-2,3-dimyristoylglycerol (OMM) and 1-oleoyl-2,3-dipalmitoylglycerol (OPP), clearances of CO label were significantly slower than with control OOO emulsions, while the removal of OOO label was not significantly affected. The uptake of CO label in the liver was decreased in conjunction with the lower rates of clearance of emulsion CO from the plasma. The clearance from plasma of 1,3-distearoyl-2-oleoylglycerol (SOS) emulsions was similar to the control OOO emulsions, but significantly more emulsion OOO label was taken up by the liver. Emulsions made with the triacylglycerols extracted from natural cocoa butter, which contained a high proportion of saturated acyl chains, were cleared similarly to the control OOO emulsions. Our findings indicate that the plasma clearance of triacylglycerol-rich lipoprotein particles depends upon the specific arrangements of the acyl chains of the constituent triacylglycerols, and not necessarily on the overall saturation of the triacylglycerols.(ABSTRACT TRUNCATED AT 400 WORDS)

Charge effects on chylomicron clearance in rats.

Feeding a diet enriched with cholesterol/cholic acid (CCA) to rats caused defective plasma clearance of labeled chylomicron-like emulsions compared with clearance in chow-fed rats. When heparin was injected 5 min before an emulsion, the clearance of the emulsion in CCA-fed rats was significantly improved, and lipoproteins in the remnant and HDL fractions of plasma became enriched in apolipoprotein E. Injection of lactoferrin or poly-arginine inhibited the removal of emulsion or lymph chylomicron cholesteryl oleate in regular chow-fed rats. Poly-arginine but not lactoferrin inhibited the clearance of emulsion or chylomicron triolein also. The results demonstrate the involvement of charge interactions in both the lipolysis and remnant uptake steps of chylomicron clearance.

Effects of anaesthesia on the removal from plasma of intravenously injected chylomicron-like lipid emulsions in rats and mice.

1. In order to find an anaesthesia with minimum perturbation to the metabolism of chylomicrons, the effects of seven different anaesthetic agents on clearance from plasma of chylomicron-like emulsions were compared. 2. Avertin, urethane, fentanyl, and a ketamine/xylazine mixture all slowed the removal from plasma of emulsion triolein and cholesteryl oleate. The steroid anaesthetic althesin slowed the clearance of emulsion cholesteryl oleate without affecting the removal from plasma of emulsion triolein. Nembutal when injected intravenously at a hypnotic dose did not affect the clearance of emulsion triolein or cholesteryl oleate, whereas at the anaesthetic dose, nembutal slowed the clearance rate of both labelled lipids. 3. Except for althesin, which did not affect the plasma clearance of triolein, fractional clearance rates of emulsion triolein and cholesteryl oleate calculated from blood samples taken during 12 min after injection were significantly slower in the anaesthetized groups compared with controls. However, with avertin, althesin, nembutal and ketamine/xylazine, amounts of radiolabelled triolein and cholesteryl oleate remaining in plasma 25 and 30 min after injection were comparable with the control. Radioactive lipids in plasma remained much higher in rats treated with urethane and fentanyl-fluanisonium even 30 min after injection. 4. Avertin was simple to administer and produced a suitable depth of anaesthesia for minor surgery, tail vein injections and blood sampling, whereas althesin and the ketamine/xylazine mixture required supplementary doses to maintain anaesthesia towards the end of the experiment. We concluded that anaesthesia is best avoided for studies of chylomicron clearance. Avertin is the preferred agent if anaesthesia must be used, for example in newborn rats or in mice.

Clearance from plasma of lymph chylomicrons and chylomicron remnants labelled with 125I-tyramine-cellobiose.

The aims of the present study were to evaluate the metabolism of chylomicrons (CM) and of CM remnants after labelling with radioactive iodine and converting the iodinated CM into remnants in vitro. Lymph CM were radiolabelled with 125I or sham-labelled with 127I by either the ICl procedure or the tyramine-cellobiose (TC) procedure, then injected into rats. The clearance from plasma of the iodinated CM was compared with control non-iodinated lipid-labelled CM. After iodination with ICl, the plasma removal of endogenously labelled CM was significantly different from non-iodinated CM, with increased uptake of CM triacylglycerols by the liver. In contrast, the clearances from plasma and the uptake by organs of radiolabelled lipids of CM iodinated by the TC method (TC-CM) were similar to control CM. About 40% of the label from 125I-TC-CM was insoluble in 50% propan-2-ol, indicating association with CM apolipoprotein B48. Only about 8% of label was lipid soluble, mostly in phosphatidylethanolamine. Radioactivity from 125I-TC-CM injected intravenously in rats was cleared rapidly and by 30 min only 20% remained in plasma, whereas 48% was recovered in the liver. After fractionation of the plasma by density-gradient ultracentrifugation, most label remained associated with d (relative density) less than 1.006 lipoproteins. In intact rats label was also found associated with the low-density and high-density lipoprotein fractions of plasma. When the liver was excluded from circulation, the recovery of label in low-density- and high-density-lipoprotein fractions was greatly decreased. CM remnants were prepared in vivo by injecting 125I-TC-CM into functionally hepatectomized donors and compared with remnants prepared in vitro by incubation with purified bovine milk lipoprotein lipase. Although remnants prepared in vitro cleared from plasma slower than remnants prepared in vivo, the size, lipid composition and apolipoprotein profile on gradient PAGE of the remnants were similar. We conclude that labelling of CM by the TC method avoided the 'artefactual' changes in metabolism seen after labelling by the ICl procedure. CM remnants when prepared in vitro using lipoprotein lipase were found to be similar to those prepared in vivo after injection into functionally hepatectomized rats.

Plasma clearance of model lipoproteins containing saturated and polyunsaturated monoacylglycerols injected intravenously in the rat.

Triacylglycerols, with a saturated long-chain fatty acid at the glycerol-2-position, slow the clearance from plasma of remnants derived from injected chylomicrons and chylomicron-like emulsions. Slowing of remnant clearance also occurs when about 1% of monostearoylglycerol is added to a triolein chylomicron-like emulsion. We have now found that addition of monoacylglycerols, containing a saturated acyl chain from 12 to 20 carbons, slowed the plasma clearance and decreased the liver uptake of the remnants. In contrast, monoacylglycerols with unsaturated acyl chains were inconsistent in their effects on the remnant clearance. Monoarachidonin (M20:4) slowed remnant clearance comparable to that of saturated monoacylglycerols, monolinolenin (M18:3) and monolinolein (M18:2) were less effective, while monoolein had the least effect on remnant clearance. We have confirmed the defective remnant clearance in rats of injected emulsions containing saturated acyl chain by the using the diester-2-ether analogues of triolein and 1,3-dioleoyl-2-stearoylglycerol (OSO). Chylomicron-like lipid emulsions made with the ether analogues had clearance rates similar to their triester counterparts. Preformed remnants derived from emulsions of OSO, its ether analogue, and triolein emulsions or emulsions of triolein with approximately 1% saturated monoacylglycerols were prepared in hepatectomized rats. After intravenous injection into conscious recipient rats, these remnants were cleared from plasma similar to remnants traced in situ by lipolysis of injected chylomicron-like emulsions.

Effects of sphingomyelin and phosphatidylcholine acyl chains on the clearance of triacylglycerol-rich lipoproteins from plasma. Studies with lipid emulsions in rats.

Series of lipid emulsions were prepared as physical models of lymph chylomicrons. The emulsion phospholipid was systematically varied with respect to sphingomyelin, in 0-100% mixtures with egg yolk phosphatidylcholine (EYPC). In other emulsions, the phospholipid was systematically varied with respect to dipalmitoylphosphatidylcholine (DPPC) in 0-100% mixtures with 1-palmitoyl-2-oleoylphosphatidylcholine (POPC). All emulsions contained unlabeled free cholesterol, radiolabeled triolein (TO) and radiolabeled cholesteryl oleate (CO). The emulsions were injected into conscious rats to measure the clearances of emulsion TO and CO and the capture of lipid radioactivity by selected organs. The emulsions containing EYPC or POPC were metabolized similarly to lymph chylomicrons, consistent with rapid lipoprotein lipase-mediated hydrolysis of emulsion TO followed by hepatic uptake of the CO in the triglyceride-depleted emulsion remnants. Emulsions stabilized with either 1-oleoyl-2-stearoyl- or 1-stearoyl-2-oleoylphosphatidylcholine (OSPC or SOPC) were metabolized similarly. Increasing amounts of sphingomyelin in EYPC emulsions progressively slowed the removal of TO and CO labels from plasma. With 50% sphingomyelin clearance was very slow, while emulsion clearance was negligible with 100% sphingomyelin. Emulsions containing 20% of DPPC in POPC were metabolized similarly to 100% POPC, but 40% or more of DPPC progressively slowed the removal from plasma of both TO and CO. With 100% DPPC clearance was characterized by a rapid initial removal of about 30% of the injected material, followed by a second phase when removal was negligible, suggesting lack of hydrolysis of triacylglycerols by lipoprotein lipase. Changes in the apolipoproteins associated with the emulsions probably mediated the observed changes in clearance.