Plasma lipids in Turkish children: impact of puberty, socioeconomic status, and nutrition on plasma cholesterol and HDL.

In Turkish adults, HDL cholesterol (HDL-C) levels are 10-15 mg/dl lower than those of adults in western Europe and the United States. In this study, we determined whether HDL-C levels in Turks are low from birth to adulthood and assessed the effect of socioeconomic status (SES) on plasma lipids and lipoproteins. Analyses of cord blood from 105 Turkish newborns showed low levels of plasma cholesterol ( approximately 60 mg/dl) and HDL-C (approximately 30 mg/dl), consistent with results from other Western ethnic groups. Prepubescent 8- to 10-year-old Turkish boys and girls of upper (n = 82) and lower (n = 143) SES had high HDL-C levels (50-60 mg/dl) similar to those of western European children. However, the cholesterol (154-158 mg/dl) and HDL-C (55-58 mg/dl) levels of upper SES children were approximately 25 and approximately 12 mg/dl higher, respectively, than those of lower SES children. Height, weight, skinfold thickness, and estimated body fat were greater in the upper SES children and appeared to reflect dietary differences. Upper SES children consumed more total fat (approximately 35% vs. 25% of total calories), including more saturated fat of animal origin, and less carbohydrate (approximately 50% vs. 62% of total calories), consistent with their elevated plasma cholesterol levels. Carbohydrate intake correlated inversely with the HDL-C level. The HDL-C levels in the prepubescent children, especially those of higher SES, who consumed diets more like western Europeans, decreased markedly to adult levels, with males exhibiting a approximately 20 mg/dl decrease (from 58 to 37 mg/dl) and females a approximately 13 mg/dl decrease (from 55 to 42 mg/dl). SES did not affect HDL-C levels in adults. The profound decrease may reflect alterations in androgen/estrogen balance in Turks at puberty and a modulation of hepatic lipase affecting HDL-C levels.

Low levels of high density lipoproteins in Turks, a population with elevated hepatic lipase. High density lipoprotein characterization and gender-specific effects of apolipoprotein e genotype.

Turks have strikingly low levels of high density lipoprotein cholesterol (HDL-C) (10-15 mg/dL lower than those of Americans or Western Europeans) associated with elevated hepatic lipase mass and activity. Here we report that Turks have low levels of high density lipoprotein subclass 2 (HDL(2)), apoA-I-containing lipoproteins (LpA-I), and pre-beta-1 HDL and increased levels of HDL(3) and LpA-I/A-II particles (potentially an atherogenic lipid profile). The frequency distributions of HDL-C and LpA-I levels were skewed toward bimodality in Turkish women but were unimodal in Turkish men. The apoE genotype affected HDL-C and LpA-I levels in women only. In women, but not men, the varepsilon2 allele was strikingly more prevalent in those with the highest levels of HDL-C and LpA-I than in those with the lowest levels. The higher prevalence of the epsilon2 allele in these subgroups of women was not explained by plasma triglyceride levels, total cholesterol levels, age, or body mass index. The modulating effects of apoE isoforms on lipolytic hydrolysis of HDL by hepatic lipase (apoE2 preventing efficient hydrolysis) or on lipoprotein receptor binding (apoE2 interacting poorly with the low density lipoprotein receptors) may account for differences in HDL-C levels in Turkish women (the epsilon2 allele being associated with higher HDL levels). In Turkish men, who have substantially higher levels of hepatic lipase activity than women, the modulating effect of apoE may be overwhelmed. The gender-specific impact of the apoE genotype on HDL-C and LpA-I levels in association with elevated levels of hepatic lipase provides new insights into the metabolism of HDL.

Elevated hepatic lipase activity and low levels of high density lipoprotein in a normotriglyceridemic, nonobese Turkish population.

Low levels of high density lipoprotein cholesterol (HDL-C) are associated with increased risk of coronary heart disease and, in the United States, are often associated with hypertriglyceridemia and obesity. In Turkey, low HDL-C levels are highly prevalent, 53% of men and 26% of women having HDL-C levels <35 mg/dl, in the absence of hypertriglyceridemia and obesity. In this study to investigate the cause of low HDL-C levels in Turks, various factors affecting HDL metabolism were assessed in normotriglyceridemic Turkish men and women living in Istanbul and in non-Turkish men and women living in San Francisco. Turkish men and women had significantly lower HDL-C levels than the San Francisco men and women, as well as markedly lower apolipoprotein A-I levels (25 and 39 mg/dl lower, respectively). In both Turkish and non-Turkish subjects, the mean body mass index was <27 kg/m2, the mean triglyceride level was <120 mg/dl, and the mean total cholesterol was 170-180 mg/dl. The mean hepatic triglyceride lipase activity was 21% and 31% higher in Turkish men and women, respectively, than in non-Turkish men and women, and remained higher even after subjects with a body mass index >50th percentile for men and women in the United States were excluded from the analysis. As no dietary or behavioral factors have been identified in the Turkish population that account for increased hepatic triglyceride lipase activity, the elevation most likely has a genetic basis. high density lipoprotein in a normotriglyceridemic, nonobese Turkish population.

The -514 polymorphism in the hepatic lipase gene (LIPC) does not influence androgen-mediated stimulation of hepatic lipase activity.

The -514T allele of hepatic lipase is associated with increased high density lipoprotein-cholesterol levels in men, but not in women. This observation suggests that the -514C to T polymorphism may diminish the response of hepatic lipase to androgens. To test this hypothesis, five -514T and five -514C homozygous men were treated with the anabolic steroid stanozolol for 6 days. The mean increase in hepatic lipase activity was similar in the two groups (45+/-10 vs. 51+/-10 mmol x hr(-1) x l(-1), P = 0.5). To evaluate the association between the -514 polymorphism and hepatic lipase activity at different physiological androgen concentrations, hepatic lipase genotypes and activities were measured in 44 men and 40 premenopausal women. The effect of the -514T allele on hepatic lipase activity was significant and quantitatively similar in both sexes. These data indicate that the -514 polymorphism does not influence the response of hepatic lipase activity to androgens, and that the effects of this polymorphism on hepatic lipase activity are independent of androgen action.

A unique haplotype of the apolipoprotein B-100 allele associated with familial defective apolipoprotein B-100 in a Chinese man discovered during a study of the prevalence of this disorder.

The prevalence of familial defective apolipoprotein (apo) B-100 (FDB) was determined by sampling 5,160 volunteer subjects from among 14,058 eligible employees of a bank in California. The sample was ethnically diverse (44.6% of the population was non-Caucasian). The prevalence of FDB in the study population was 0.08% with a 90% confidence interval of 0.01-0.14%. Four subjects were found to have the apoB 3500 codon mutation by mutagenic polymerase chain reaction, which creates an MspI site at the 3500 codon of normal alleles but not alleles coding for the Arg-->Gln mutation of FDB. Three of these were Caucasian and born in North America. The fourth was a native of China. Haplotype analysis of the affected allele of the Chinese subject using 10 markers described by Ludwig and McCarthy (1990. Am. J. Hum. Genet. 47: 712-720) revealed a unique haplotype that differed from the haplotype of all other subjects with FDB. This unique allele had 30 repeats of a 3' hypervariable element instead of 48 as was found in the allele associated with FDB in other subjects, and in the 3' region there was an EcoRI site that was also not present in the allele most commonly found in association with FDB. We conclude that the prevalence of FDB in our ethnically diverse population is lower than that reported in previous studies of predominantly Caucasian populations and that the Chinese subject represents either an independent mutation or possibly recombination at the 3' end of the apoB gene, an event not previously described.

Familial defective apolipoprotein B-100: a mutation of apolipoprotein B that causes hypercholesterolemia.

Familial defective apolipoprotein B-100 is a genetic disorder of apolipoprotein B-100 that causes moderate to severe hypercholesterolemia. A single amino acid mutation in apolipoprotein B diminishes the ability of low density lipoproteins to bind to the low density lipoprotein receptor. Low density lipoproteins accumulate in the plasma because their efficient receptor-mediated catabolism is disrupted. This mutation has been identified in the United States, Canada, and Europe and is estimated to occur at a frequency of approximately 1/500 in these populations. Thus, it appears that this newly described disorder may be a significant genetic cause of hypercholesterolemia in Western societies.

Type III hyperlipoproteinemia associated with apolipoprotein E phenotype E3/3. Structure and genetics of an apolipoprotein E3 variant.

A family has been described in which type III hyperlipoproteinemia is associated with apo E phenotype E3/3 (Havel, R. J., L. Kotite, J. P. Kane, P. Tun, and T. Bersot. 1983. J. Clin. Invest. 72:379-387). In the current study, the structure of apo E from the propositus of this family was determined using both protein and DNA analyses. The propositus is heterozygous for two different apo E alleles, one coding for normal apo E3 and one for a previously undescribed variant apo E3 in which arginine replaces cysteine at residue 112 and cysteine replaces arginine at residue 142. Apo E gene analysis of nine other family members spanning four generations indicated that only those five members having type III hyperlipoproteinemia possess the variant apo E3. Like the propositus, all five are heterozygous for this variant, suggesting that the disorder in this family is transmitted in a dominant fashion. The variant apo E3 was defective in its ability to bind to lipoprotein receptors, and this functional defect probably contributes to the expression of type III hyperlipoproteinemia in this family.

Fat feeding in humans induces lipoproteins of density less than 1.006 that are enriched in apolipoprotein [a] and that cause lipid accumulation in macrophages.

Formula diets containing lard or lard and egg yolks were fed to six normolipidemic volunteers to investigate subsequent changes in the composition of lipoproteins of d less than 1.006 g/ml and in their ability to bind and be taken up by receptors on mouse macrophages. Both formulas induced the formation of d less than 1.006 lipoproteins that were approximately 3.5-fold more active than fasting very low density lipoproteins (VLDL) in binding to the receptor for beta-VLDL on macrophages. Subfractionation of postprandial d less than 1.006 lipoproteins by agarose chromatography yielded two subfractions, fraction I (chylomicron remnants) and fraction II (hepatic VLDL remnants), which bound to receptors on macrophages. However, fraction I lipoproteins induced a 4.6-fold greater increase in macrophage triglyceride content than fraction II lipoproteins or fasting VLDL. Fraction I lipoproteins were enriched in apolipoproteins (apo) B48, E, and [a]. Fraction II lipoproteins lacked apo[a] but possessed apo B100 and apo E. The apo[a] was absent in normal fasting VLDL, but was present in the d less than 1.006 lipoproteins (beta-VLDL) of fasting individuals with type III hyperlipoproteinemia. The apo[a] from postprandial d less than 1.006 lipoproteins was larger than either of two apo[a] subspecies obtained from lipoprotein (a) [Lp(a)] isolated at d = 1.05-1.09. However, all three apo[a] subspecies were immunochemically identical and had similar amino acid compositions: all were enriched in proline and contained relatively little lysine, phenylalanine, isoleucine, or leucine. The association of apo[a] with dietary fat-induced fraction I lipoproteins suggests that the previously observed correlation between plasma Lp(a) concentrations and premature atherosclerosis may be mediated, in part, by the effect of apo[a] on chylomicron remnant metabolism.

Purification and characterization of human lipoprotein lipase and hepatic triglyceride lipase. Reactivity with monoclonal antibodies to hepatic triglyceride lipase.

Human lipoprotein lipase and hepatic triglyceride lipase were purified to homogeneity from post-heparin plasma. These enzymes were purified 250,000- and 100,000-fold with yields of 27 +/- 15 and 19 +/- 6%, respectively. Molecular weight determination by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate and reducing agents yielded Mr of 60,500 +/- 1,800 and 65,200 +/- 400, respectively, for lipoprotein lipase and hepatic triglyceride lipase. These lipase preparations were shown to be free of detectable antithrombin by measuring its activity and by probing of Western blots of lipases with a monospecific antibody against antithrombin. In additions, probing of Western blots with concanavalin A revealed no glycoproteins corresponding to the molecular weight of antithrombin. Four stable hybridoma-producing distinct monoclonal antibodies (mAb) to hepatic triglyceride lipase were isolated. The specificity of one mAb, HL3-5, was established by its ability to immunoprecipitate hepatic triglyceride lipase catalytic activity. Interaction of HL3-5 with this lipase did not inhibit catalytic activity. The three other mAb interacted with hepatic triglyceride lipase only after denaturation of the enzyme with detergents. The relatedness of these two enzymes was examined by comparing under the same conditions the thermal inactivation, the sensitivity to sulfhydryl and reducing agents, amino acid composition, and the mobility of peptide fragments generated by cyanogen bromide cleavage. The results of these studies strongly support the view that the two enzymes are different proteins. Immunological studies confirm this conclusion. Four mAb to hepatic triglyceride lipase did not interact with lipoprotein lipase in Western blots, enzyme-linked immunosorbent assay, and immunoprecipitation experiments. These immunological studies demonstrate that several epitopes of the hepatic triglyceride lipase protein moiety are not present in the lipoprotein lipase molecule.

Receptor binding activity of high-density lipoproteins containing apoprotein E from abetalipoproteinemic and normal neonate plasma.

The receptor binding properties of lipoproteins derived from neonates and abetalipoproteinemic patients were examined. Compared to normal adults, the neonate plasma contained reduced cholesterol levels, with only 40% of the total cholesterol transported in the low-density lipoproteins (LDL). When compared at equal cholesterol concentrations, however, the total neonate lipoproteins (d less than 1.21) were as effective as adult d less than 1.21 lipoproteins in stimulating cholesteryl ester formation in cultured human fibroblasts. Analysis of the neonate lipoproteins explained their enhanced ability to deliver cholesterol to the cells via LDL (apoprotein B,E) receptors: the neonate d = 1.02-1.063 fraction contained, in addition to LDL, alpha 2-migrating, apoprotein E-rich high-density lipoproteins (HDL1), which were isolated by Geon-Pevikon electrophoresis. In binding studies performed with human fibroblasts at 4 degrees C, the neonate HDL1 were 14-fold more effective than either neonate or adult human LDL in displacing 125I-LDL from apo-B,E receptors. The neonate HDL (d = 1.063-1.21) contained a subfraction rich in apo-E and apo(E-A-II), which was isolated by heparin-Sepharose chromatography. This fraction was also active in displacing 125I-LDL from the receptors on cultured fibroblasts. Apoprotein E-containing HDL subclasses, similar to those described in the blood of neonates, were present in the d less than 1.063 and d = 1.063-1.21 lipoprotein fractions of patients with abetalipoproteinemia. These HDL with apo-E were enriched in cholesterol and were as effective as normal LDL in competing with 125I-LDL for apo-B,E receptor-mediated binding, internalization, and degradation. When incubated with cultured human fibroblasts, the HDL with apo-E from the abetalipoproteinemic subjects increased the cholesteryl ester mass three- to fourfold. These studies suggest that neonates and abetalipoproteinemic subjects may depend (at least in part) upon lipoproteins containing apo-E to deliver cholesterol to various tissues via the LDL (apo-B,E) receptor.

Identification of a new structural variant of human apolipoprotein E, E2(Lys146 leads to Gln), in a type III hyperlipoproteinemic subject with the E3/2 phenotype.

A type III hyperlipoproteinemic subject having the apolipoprotein E (apo E) phenotype E3/2 was identified. From isoelectric focusing experiments in conjunction with cysteamine treatment (a method that measures cysteine content in apo E), the E2 isoform of this subject was determined to have only one cysteine residue, in contrast to all previously studied E2 apoproteins, which had two cysteines. This single cysteine was shown to be at residue 112, the same site at which it occurs in apo E3. From amino acid and sequence analyses, it was determined that this apo E2 differed from apo E3 by the occurrence of glutamine rather than lysine at residue 146. When phospholipid X protein recombinants of the subject's isolated E3 and E2 isoforms were tested for their ability to bind to the human fibroblast apo-B,E receptor, it was found that the E3 bound normally (compared with an apo E3 control) but that the E2 had defective binding (approximately 40% of normal). Although they contained E3 as well as E2, the beta-very low density lipoproteins (beta-VLDL) from this subject were very similar in character to the beta-VLDL from an E2/2 type III hyperlipoproteinemic subject; similar subfractions could be obtained from each subject and were shown to have a similar ability to stimulate cholesteryl ester accumulation in mouse peritoneal macrophages. The new apo E2 variant has also been detected in a second type III hyperlipoproteinemic subject.

Cholesteryl ester accumulation in mouse peritoneal macrophages induced by beta-migrating very low density lipoproteins from patients with atypical dysbetalipoproteinemia.

The d < 1.006 lipoproteins of patients in a kindred with atypical dysbetalipoproteinemia induced marked cholesteryl ester accumulation in mouse peritoneal macrophages. The affected family members had severe hypercholesterolemia and hypertriglyceridemia, xanthomatosis, premature vascular disease, the apo-E3/3 phenotype, and a predominance of cholesterol-rich beta-very low density lipoproteins (beta-VLDL) in the d < 1.006 fraction. When incubated with mouse peritoneal macrophages, the d < 1.006 lipoproteins or beta-VLDL from the affected family members stimulated cholesteryl [(14)C]oleate synthesis 15- to 30-fold above that caused by normal, control d < 1.006 lipoproteins (VLDL). The ability of the beta-VLDL to stimulate macrophage cholesteryl ester accumulation was greatly reduced as a consequence of treatment with hypolipidemic agents, which specifically reduced the concentration of beta-VLDL. Two important differences were noted in a comparison of the beta-VLDL from these atypical dysbetalipoproteinemic subjects with that of classic E2/2 dysbetalipoproteinemics: (a) the beta-VLDL from the atypical subjects were severalfold more active in stimulating cholesteryl ester accumulation in macrophages, and (b) both the intestinal and hepatic beta-VLDL from the atypical subjects were active. The triglyceriderich, alpha(2)-migrating VLDL from the affected family members constituted <10% of the d < 1.006 fraction and were similar to normal VLDL in that they did not stimulate cholesteryl ester synthesis in the macrophages. Several lines of evidence indicate that the macrophage accumulation of cholesteryl esters was induced by a receptor-mediated uptake process and that the beta-VLDL were bound by a specific beta-VLDL receptor. First, the uptake and degradation of the lipoproteins and the induction of cholesteryl ester formation displayed qualities of high affinity, saturable kinetics. Second, the uptake and degradation process was inhibited when the lysyl residues of the beta-VLDL apoproteins were modified by reductive methylation. Third, the beta-VLDL from the affected subjects competed with diet-induced canine (125)I-beta-VLDL for the same cell surface receptors, but did not compete with chemically modified low density lipoproteins. Finally, the receptor-mediated uptake of these beta-VLDL resulted in lysosomal degradation of the lipoproteins, which could be prevented by incubating the cells with chloroquine. Normal, triglyceride-rich VLDL were also degraded when incubated with the macrophages, but they were not degraded by the same receptor-mediated process responsible for the degradation of the beta-VLDL of the patients. The degradation of the VLDL was not abolished by reductive methylation of the lipoproteins or by treatment of the cells with choloroquine. These studies demonstrate that the beta-VLDL from subjects with atypical dysbetalipoproteinemia are taken up by macrophages via the same receptor-mediated process responsible for the uptake of diet induced beta-VLDL. The accelerated vascular disease seen in these patients may be the result of high concentrations of beta-VLDL capable of binding to and delivering large quantities of cholesterol to macrophages and converting them into cells resembling the foam cells of atherosclerotic lesions.

Atypical familial dysbetalipoproteinemia associated with apolipoprotein phenotype E3/3.

Familial dysbetalipoproteinemia has been reported to be associated uniquely with an apolipoprotein E phenotype (E2/2) that occurs in approximately 1% of all persons. We have observed the typical clinical and biochemical characteristics of this disorder in five members of a family, in all of whom the apolipoprotein E phenotype, as determined by isoelectric focusing electrophoresis, is E3/3. The disorder is present in three generations of the family: the proband, her mother, and three of the proband's five children. The proband's husband, father of all five children, also has apolipoprotein E phenotype E3/3, as do his two unaffected children. As in normal persons with phenotype E3/3, the apolipoprotein E of affected members appears to have a single residue of cysteine. When incorporated with egg lecithin into discoidal complexes, the apolipoprotein E from affected members was taken up normally into perfused livers of estradiol-treated rats, in which a high level of LDL receptors is expressed. When isoelectric focusing electrophoresis was carried out over a narrow range of pH (5-7), each of the apolipoprotein E isoforms of affected members was observed as a doublet, even after reduction of dimers of the protein with 2-mercaptoethanol and treatment with neuraminidase to minimize the content of sialylated forms of the protein. Doublets were also observed in the apolipoprotein E-2 of patients with classical dysbetalipoproteinemia, but only in the affected members of the family with atypical dysbetalipoproteinemia were the components of the doublets equally prominent. As in classical dysbetalipoproteinemia, both apolipoprotein B-100 and B-48 were present in the very low density lipoprotein fraction of plasma obtained in the postabsorptive state, indicating that remnantlike lipoproteins of both hepatic and intestinal origin accumulate. This observation, together with available evidence on the structural and functional heterogeneity of human apolipoprotein E, lead us to suggest that the disorder in this family is caused by one or two structurally abnormal forms of apolipoprotein E that contain a single residue of cysteine.

A-Imilano apoprotein. Isolation and characterization of a cysteine-containing variant of the A-I apoprotein from human high density lipoproteins.

A recently discovered familial lipoprotein disorder is characterized by reduced plasma levels of high density lipoproteins (HDL) and elevated triglyceride levels. The clinical aspects of this disorder are presented in an accompanying article (Franceschini et al. 1980. J. Clin. Invest. 66: 892-900). The apoprotein content of the HDL isolated from these patients differed markedly from that of normal HDL in that three apoprotein bands not previously described in man were present as major protein components. As determined by sodium dodecyl sulfate (SDS) gel electrophoresis, the relative molecular weights (Mr) of these new apoprotein bands were 55,000, 35,000, and 28,000. Although the Mr 28,000 apoprotein coelectrophoresed with authentic A-I on SDS polyacrylamide gels and showed immunochemical identity with the A-I apoprotein when tested with monospecific apo-A-I antiserum, it contained two amino acid residues, cysteine and isoleucine, which were not present in the amino acid sequence of normal human apo-A-I. This variant form of the A-I apoprotein was designated the A-IMilano apoprotein and denoted A-Icys. By virtue of the presence of cysteine (2 mol/mol A-Icys), the A-Icys apoprotein was capable of forming intermolecular disulfide bonds, and dimer formation of A-Icys produced the Mr 55,000 apoprotein. The Mr 35,000 apoprotein was composed of two different subunits, A-Icys and A-II. By analogy to the apo(E--A-II) complex, which also occurs in human HDL, this mixed disulfide complex was designated as the apo(A-Icys--A-II) complex. The A-IMilano (A-Icys) is the first example of a variation in the primary sequence of a protein of plasma lipoproteins.

Alterations in human high-density lipoproteins, with or without increased plasma-cholesterol, induced by diets high in cholesterol.

High-density lipoproteins (d=1.095--1.21) (H.D.L.( were isolated from six healthy men and women who added 4 to 6 eggs per day to their diet for 4 weeks and from five individuals who gradually increased their egg consumption to 3 per day over an 18-week period. Pre-diet and post-diet H.D.L.-binding activities for the cell-surface receptors of fibroblasts were compared by determining the quantity of 125I-labelled low-density lipoprotein which was competitively displaced by H.D.L. in binding, internalisation, and degradation assays. Irrespective of whether plasmacholesterol changed during the course of the diet, the binding activity of the post-diet H.D.L. was enhanced 2.6-fold to 4-fold compared with pre-diet activity. Furthermore, the increased binding activity in the H.D.L. could be accounted for by a minor, but potent, H.D.L. subfraction precipitated by heparin/manganese. Both binding activity and heparin precipitability appeared to correlate with an increase in arginine-rich apoprotein (apo-E) in the active H.D.L. subfraction. These data show that consumption of large numbers of eggs, whether or not it leads to an increase in plasma-cholesterol, does alter the properties of human H.D.L.

Interaction of swine lipoproteins with the low density lipoprotein receptor in human fibroblasts.

HDLc, a cholesterol-rich lipoprotein that accumulates in the plasma of cholesterol-fed swine, was shown to resemble functionally human and swine low density lipoprotein in its ability to bind to the low density lipoprotein receptor in monolayers of cultured human fibroblasts. This binding occurred even though HDLc lacked detectable apoprotein B, which is the major protein of low density lipoprotein. After it was bound to the low density lipoprotein receptor, HDLc, like human and swine low density lipoprotein, delivered its cholesterol to the cells, and this, in turn, caused a suppression of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity, an activation of the cholesterol-esterifying system, and a net accumulation of free and esterified cholesterol within the cells. Swine HDLc, like human high density lipoprotein, did not bind to the low density lipoprotein receptor nor did it elicit any of the subsequent metabolic events. HDLc, like human low density lipoprotein, was incapable of producing a metabolic effect in fibroblasts derived from a subject with the homozygous form of familial hypercholesterolemia, which lack low density lipoprotein receptors. These results indicate that two lipoproteins that have been associated with athersclerosis--low density lipoprotein in humans and HDLc in cholesterol-fed swine--both can cause the accumulation of cholesterol and cholesteryl esters within cells through an interaction with the low density lipoprotein receptor.