Fractionation of human low density lipoprotein by column chromatography.

We have devised a method to fractionate low density lipoprotein (LDL) into subspecies by means of column chromatography. DEAE-agarose columns, 2.6 X 60 cm, were loaded with LDL (25-45 mg LDL protein) and eluted with a 0.045-0.13 M NaCl gradient. The LDL eluted over a volume of 900 ml. Specific portions of the eluted LDL, reapplied to a column identical with the original, reelute at about the same point. Altering the NaCl concentration of the elution fluid changed the elution volume. The cholesterol-protein ratio of the LDL subfractions was progressively lower in fractions eluting at higher NaCl concentrations. These results indicate the LDL is not a homogenous lipoprotein species but consists of subfractions which differ in at least charge and cholesterol content.     

Carrier protein effects on DNA-cellulose chromatography of putative steroid receptors.

In the absence of carrier proteins, putative androgen receptors elute from DNA-cellulose in the range of 120 to 190 mM NaCl. However, in the presence of lysozyme, most of the receptor elutes in the range of 200 to 230 mM NaCl. This is the same range in which the lysozyme itself, a basic protein, elutes after being chromatographed in the same manner. Moreover, at low ionic strength, lysozyme also increases the sedimentation velocity of both androgen and estrogen receptors. In contrast, bovine serum albumin neither adheres to DNA-cellulose nor alters the sedimentation properties of these proteins. The lysozyme effects can account for some discrepancies reported in the literature. Thus, for qualitative elution studies, the use of lysozyme as a carrier protein is not advised, although its direct interaction with receptors might facilitate quantitative fractionation.     

Fractionation of chylomicrons by heparin-sepharose chromatography. Characterization of two heparin-binding proteins

Rat lymph chylomicrons were separated into two fractions using heparin-Sepharose chromatography: a major fraction which elutes from the column with the void volume at 0.05 M NaCl, and a smaller fraction which binds to the column at 0.05 M NaCl and elutes at 0.3 M NaCl. These two fractions differ in mean particle size, and lipid and protein compositions. Both fractions share apolipoproteins B, A-IV, E, A-I, and C, but the fraction which binds to heparin-Sepharose contains two additional proteins: protein I (Mr = 6.0 X 10(4)), and protein II (Mr = 8.0 X 10(4)). Both proteins are also present in the lipoprotein-free fraction of rat serum. Proteins I and II bind to heparin-Sepharose, and are highly amphiphilic: they bind with high affinity to phospholipid surfaces and form stable monolayers at the air-water interface. The molecular weight, amino acid composition, heparin binding, and amphiphilicity of protein I resemble that of beta 2-glycoprotein I; in addition, protein I from rat lymph chylomicrons cross-reacts with rabbit antiserum to human beta 2-glycoprotein I, suggesting that these two proteins are homologous. Protein II appears to be a previously undescribed protein. The possible functions of these two proteins are discussed.     

The distribution and dissociation of cyclic adenosine 3':5'-monophosphate-dependent protein kinases in adipose, cardiac, and other tissues.

In crude extracts of adipose tissue the protein kinase dissociates slowly at 30 degrees into regulatory and catalytic subunits in the presence of 700 mug per ml of histone or 0.5 M NaCl. If the kinase is first dissociated by adding 10 muM adenosine 3':5'-monophosphate (cAMP), reassociation occurs instantaneously after removal of the cAMP by Sephadex G-25 chromatography. In contrast, in crude xtracts of heart, the protein kinase dissociates rapidly in the presence of 700 mug per ml of histone or 0.5 M NaCl and reassociates slowly after removal of cAMP. These differences are accounted for by the existence of two types of protein kinases in these tissues, referred to as types I and II. DEAE-cellulose chromatography of extracts of adipose tissue produces only one peak of cAMP-dependent protein kinase activity (type II) which elutes between 0.15 and 0.25 M NaCl. Similar chromatography of heart extracts resolves enzyme activity into two peaks; a type I enzyme which elutes between 0.05 and 0.1 M and predominates (greater than 75% of total activity), and a type II enzyme which elutes between 0.15 and 0.25 M NaCl. The dissociation properties of the types I and II enzymes from heart and adipose tissue are retained after partial purification by DEAE-cellulose and Sepharose 6B chromatography. Rechromatography of the separated peaks of the cardiac enzymes does not change the elution pattern. Sucrose density gradient centrifugation and gel filtration studies indicate that the molecular weights of these enzymes are very similar. The type II enzyme isolated by DEAE-cellulose chromatography of heart extracts resembles the adipose tissue enzyme, i.e. it undergoes slow dissociation at 30 degrees in the presence of histone or 0.5 M NaCl. The adipose tissue kinase and the heart type II kinase are not identical, however, since they do not elute at exactly the same point on DEAE-cellulose columns. A survey of several tissues indicates the presence of type I and II protein kinases similar to the enzymes in adipose tissue and heart as determined by DEAE-cellulose chromatography of crude extracts and by dissociation of the enzymes with histone. The presence of MgATP prevents dissociation of type I enzyme from heart by 0.5 M NaCl or histone. The profile of the enzyme on DEAE-cellulose, however, is not changed...     

Purification and physical characterization of nucleic acid helix-unwinding proteins from calf thymus.

We have devised a general protein fractionation procedure which selects for eukaryotic DNA-binding proteins, some of which resemble DNA-unwinding proteins from prokaryotes. Proteins were selected which (a) pass through a native DNA-cellulose column, (b) bind to a denatured DNA-cellulose column, and (c) remain bound to the latter column during a rinse with a dilute solution of the sodium salt of the polyanion dextran sulfate. When this fractionation was applied to the soluble proteins fo calf thymus, three major protein species were recovered. The predominant one has an apparent molecular weight of about 24,000 in sodium dodecyl sulfate-polyacrylamide gel electrophoresis, is isoelectric near neutrality, and elutes as a monomer from denatured DNA-cellulose at moderate NaCl concentrations. This protein, designated calf-unwinding protein 1 (UP1), has been purified to homogeneity. However, isoelectric focusing reveals four or five subspecies (apparently separated by single-charge differences) which differ appreciably in their affinities for DNA. Two other major proteins are obtained which have apparent molecular weights in sodium dodecyl sulfate of 33,000: the first, which elutes with low salt from DNA-cellulose as a homogeneous preparation, appears to be a basic protein (although it is clearly not a histone); the other, which elutes from DNA-cellulose as the major component of a "high salt eluting fraction," is an acidic protein which co-purifies with less prominent species of higher molecular weights. Proteins similar to each of these three major calf thymus proteins have been observed by us and others in tissue culture cells of mouse, hamster, monkey, and humans, suggesting their wide occurrence among eukaryotes.     

Discrete subspecies of human low density lipoproteins are heterogeneous in their interaction with the cellular LDL receptor.

The low density lipoproteins (LDL) of human plasma consist of a series of discrete particle subspecies of distinct physicochemical, immunological, and hydrodynamic properties. Such structural differences are intimately linked to the metabolic heterogeneity of circulating LDL in vivo. The current studies were designed to evaluate and compare the interaction of discrete LDL subspecies from normolipidemic subjects with the LDL receptor. Plasma LDL of d 1.019-1.063 g/ml from healthy males were fractionated into 15 subspecies of defined physicochemical characteristics by isopycnic density gradient ultracentrifugation as described earlier (Chapman et al., J. Lipid Res. 1988. 29: 442-458). The major LDL subspecies, LDL-5 to LDL-10, exhibited an overall range in density from 1.0244 to 1.0435 g/ml; individual subspecies increased in density by increments of 0.027 (LDL-5), 0.026 (LDL-6), 0.030 (LDL-7), 0.031 (LDL-8), 0.035 (LDL-9), and 0.042 g/ml (LDL-10), respectively. Taken together, these subspecies accounted for approximately 70% of the total mass of LDL of d 1.019-1.063 g/ml; their cholesterol: protein ratios decreased from 1.70 to 1.12 and particle size from 275 to 260 A with increase in density. ApoB-100 was the unique protein component in subspecies 5-8, with trace amounts (less than 0.2% of apoLDL) of both apoA-I and apoE in subspecies 9 and 10. The interaction of individual LDL subspecies with the LDL receptor on cultured human U-937 monocyte-like cells was compared by determining receptor binding affinities at 4 degrees C. Scatchard analysis of specific binding curves demonstrated a single class of binding site for each subspecies. The lowest dissociation constants were displayed by LDL subspecies 6 (Kd 5.71 nM), 7 (Kd 5.24 nM) and 8 (Kd 4.67 nM), while subspecies 5, 9, and 10 displayed significantly higher Kd values (8.35, 7.20, and 6.87 nM, respectively). Competitive displacement studies at 4 degrees C, in which unlabeled subspecies from the same gradient series competed for binding with 125I-labeled LDL subspecies, confirmed the relative binding affinities of these subspecies. As the hydrophobic lipid core of LDL undergoes a thermotropic transition at approximately 37 degrees C, which may in turn influence the surface structure of the particle, internalization and degradation studies were performed at 37 degrees C. No effect of temperature was detectable; again, LDL subspecies at each extreme of the density distribution (LDL-5 and LDL-10) displayed significantly lower binding affinities for the LDL receptor than that from the peak region (LDL-7).(ABSTRACT TRUNCATED AT 400 WORDS)     

Defective receptor binding of low density lipoprotein from pigs possessing mutant apolipoprotein B alleles

We previously identified a defect in the in vivo catabolism of low density lipoprotein (LDL) from hypercholesterolemic pigs carrying a mutant apolipoprotein B allele. In the present studies, we examined the in vitro metabolism of mutant LDL in cultured pig fibroblasts. A 3-fold higher concentration of mutant LDL (compared to control) was needed to displace 50% of control 125I-LDL binding. Mutant LDL had a 6-fold higher dissociation constant than control LDL. Scatchard plots of the binding data were concave upward, suggesting multiple classes of binding sites or negative cooperativity. The mutant LDL degradation rate was reduced by 40%; this decrease could be attributed to a dense LDL subspecies. Mutant and control buoyant LDL subspecies were degraded more slowly than the corresponding dense LDL subspecies. Together, these studies show that diminished LDL receptor binding can result from mutations in apolipoprotein B and from changes in the lipid composition of LDL particles.     

Defective catabolism and abnormal composition of low-density lipoproteins from mutant pigs with hypercholesterolemia

Metabolic and chemical properties of low-density lipoproteins (LDLs) were studied in a strain of pigs carrying a specific apo-B allele associated with hypercholesterolemia and premature atherosclerosis. LDL mass was significantly greater in mutant than in control pigs (400 +/- 55 mg/dL vs 103 +/- 26 mg/dL), as was LDL cholesterol. When normal and mutant LDLs were injected into the bloodstream of normal pigs, the fractional catabolic rate (FCR) of mutant LDL was about 30% lower than that of control LDL. In mutant pigs, the mean FCRs of mutant and control LDL were similar, although they were much lower than the corresponding FCRs observed in normal pigs. The density profile of LDL particles differed in control and mutant pigs; the peak LDL flotation rate was shifted from S0f = 5.3 +/- 1.9 in controls to a more buoyant 7.4 +/- 0.5 in mutants. The elevation of LDL in the mutants was restricted to the most buoyant LDL subspecies. This subpopulation of mutant LDL was enriched with cholesteryl ester (47% vs 37%) and depleted of triglyceride, relative to LDL of similar density and size in controls. The lipid compositions of the denser LDL subpopulations (rho greater than 1.043 g/mL) were similar in mutants and controls. We conclude that the hypercholesterolemia of these mutant pigs is accounted for by defective catabolism of LDL. The buoyant cholesterol ester enriched LDL subspecies that accumulate in plasma may contribute to the accelerated atherogenesis that occurs in these animals.     

Effect of formylation on the chromatographic behavior of methionyl transfer ribonucleic acid

The effect of formylation on the chromatographic behavior of Met-tRNA_f^Met on BD-cellulose has been investigated. Under conditions comparable to those routinely employed in analytical BD-cellulose chromatography, formylated Met-tRNA_f^Met was observed to elute at a significantly higher salt concentration than unformylated Met-tRNA_f^Met. Unformylated Met-tRNA_f^Met elutes well before Met-tRNA_m^Met, whereas fMet-tRNA_f^Met elutes slightly after Met-tRNA_m^Met; thus the net effect of formylation is an apparent inversion of the elution order of the isoaccepting methionyl tRNA species, tRNA_f^Met and tRNA_m^Met. Although aminoacylated tRNA_f^Met and tRNA_m^Met elute slightly later than their respective unacylated forms, aminoacylation alone does not produce the inverted elution order observed upon formylation of Met-tRNA_f^Met.     

Studies on specific elution of rabbit muscle phosphofructokinase with allosteric ligands]

The specific elution of rabbit skeletal muscle phosphofructokinase (PFK) from DEAE-cellulose is studied in the linear gradient of different allosteric ligands. Citrate and fructose-6-phosphate elute PFK at concentrations of 1.0 and 2.5 mM respectively, i.e. without increasing the ionic strength of the starting buffer (similar to 0.12). The specificity of elution is confirmed by comparison of the ionic strength of these solutions with that of buffer eluting PFK in buffer gradient (mu=0.17) as well as by comparison with the eluting ability of other ligands. Fructose-1,6-diphosphate elutes PFK only at the concentration of 5.5 mM which corresponds to the ionic strength 0.17. MgATP and AMP are inefficient as specific eluents whereas ATP and ADP elute only a small part of PFK with concomitant substantial increase of the ionic strength (up to 0.17--0.18). These results are discussed in terms of a charge compensation mechanism as a result of the displacement of PFK conformers equilibrium under the influence of the allosteric ligands.     

Ca2+-dependent proteolysis of the Ah receptor

We previously reported (J. Biol. Chem. (1986) 261, 6352-6465) that the photoaffinity ligand for the Ah receptor, [125I]-2-azido-3-iodo-7,8-dibromodibenzo-p-dioxin, upon incubation with the liver cytosol fraction from C57BL/6 mice, labeled in a 1:1 ratio two peptides that had apparent molecular masses of 95 and 70 kDa and similar proteolytic fragmentation patterns. In the cytosolic fraction of Hepa 1 cells, a cloned murine hepatoma cell line, the product of photoaffinity labeling is almost exclusively a 95-kDa peptide which is rapidly hydrolyzed by a Ca2+-dependent proteinase to a 70-kDa peptide as well as other fragments. Thus, the ligand binding unit of the Ah receptor in C57BL/6 mouse liver and Hepa 1 cell is a 95-kDa peptide, and the 70-kDa fragment is a proteolytic artifact. The Ca2+-dependent proteinase which hydrolyzes the 95-kDa peptide has the properties of calpain II: (i) an absolute requirement for Ca2+, with maximal activity at 0.5 to 1.0 mM Ca2+; (ii) a pH optimum of 7.5 to 8.0; (iii) inhibition by EDTA, iodoacetamide, leupeptin and L-trans-epoxysuccinylleucylamido(4-guanidino)butane, but not by soybean trypsin inhibitor, aprotinin, or phenylmethanesufonyl fluoride. Upon chromatographic separation of the liver cytosol of C57BL/6 mice on DEAE-Sephacel, Ca2+-dependent proteinase activity (using casein or the labeled 95-kDa peptide as substrates) elutes with 0.25 M NaCl, and a specific proteinase inhibitor elutes with 0.15 M NaCl. Ca2+-dependent proteinase activity that hydrolyzes the 95-kDa peptide is found in the liver cytosols of several mammalian species.     

Purification of carboxypeptidase B by zinc chelate chromatography

A method is described to purify pancreatic carboxypeptidases B (CPB), removing contaminating endoproteinases that interfere with use of CPB for carboxy-terminal analysis or modification of proteins. The separation uses zinc chelate chromatography and is based on the property that CPB has higher affinity for immobilized zinc ions than do serine proteinases such as trypsin and chymotrypsin, which are abundant endoproteolytic activities in pancreas. CPB preparations are loaded onto a column of iminodiacetic acid-Sepharose that has been saturated with ZnCl2. A step gradient with buffers of decreasing pH is used to elute bound proteins. CPB elutes at a lower pH than do the serine proteinases.     

Developmental Changes in Multiple Forms of Deoxyribonucleic Acid-dependent Ribonucleic Acid Polymerase in Soybean Hypocotyl

The relative levels of multiple RNA polymerases were determined in soybean (Glycine max L. var. Wayne) hypocotyl during various stages of development. The meristematic region of the hypocotyl contains more total polymerase activity per gram fresh weight and a greater proportion of polymerase I relative to II than the differentiated regions. The fully elongated tissue comprising the lower half of the hypocotyl contains mainly RNA polymerase II. The hook region contains a polymerase activity peak which is completely sensitive to alpha-amanitin and partially sensitive to rifamycin SV. This peak is not detectable in other regions of the hypocotyl. Polymerase I is reproducibly separated into a major and a minor component, both being resistant to alpha-amanitin. The two components elute at salt concentrations of 0.2 m and 0.23 m KCl, respectively, while the alpha-amanitin-sensitive polymerase (II) elutes at 0.3 m KCl. The polymerase activity peak which is detectable only in the hook region elutes at approximately 0.5 m KCl. Polymerase levels were also determined in water-stressed tissue and in tissue which was harvested after three days of growth instead of the usual four days.     

DNA polymerases from non stimulated and phytohemagglutinin stimulated normal human lymphocytes

The presence and some properties of DNA polymerases isolated from normal human lymphocytes, non stimulated and stimulated by phytohemagglutinin, are described. In the non stimulated lymphocytes two cytoplasmic DNA polymerases are found, one eluting from DEAE cellulose at 0.07 M NaCl (CI_n) and the other at 0.13 M NaCl (CII_n). In the nuclear soluble fraction only one enzyme activity is found (NI_n) which does not adsorb to DEAE cellulose. In the cytoplasm of stimulated lymphocytes only one enzyme activity is detected (CI_s) which elutes from DEAE cellulose at 0.12 M NaCl. The nuclear soluble fraction contains two activities, NI_s, which does not adsorb to DEAE cellulose, and NII_s, which elutes from DEAE cellulose at 0.07 M NaCl. Some properties of the different enzymes are described which indicate that NI_n and NI_s enzymes are clearly different from the others.     

High carbohydrate fat-free diet modulates epitope expression of LDL-apoB-100 and interaction of LDL with human fibroblasts

High carbohydrate diets are known to increase the concentration of very low density lipoprotein (VLDL) and to lower the concentrations of low density lipoprotein (LDL) and high density lipoprotein (HDL) in plasma. Such diets also alter lipoprotein compositions and metabolism. The aims of the present study were to assess in detail the effects of a virtually fat-free high carbohydrate (CHO) diet (CHO greater than 85% and fat less than 1% of calories) on various aspects of LDL. Thirteen healthy normolipidemic volunteers ate a basal "American" diet and the CHO diet for 7 days each in a forward or reverse sequence. Fasting blood samples were drawn at the ends of each study period and analyzed for lipoprotein lipid and apolipoprotein concentrations. Compositions of LDL particles isolated by ultracentrifugation were characterized chemically, LDL sizes were assessed by nondenaturing gradient electrophoresis on 2-16% gels, and association and degradation of LDL with normal human skin fibroblasts were quantified in cell cultures. Immunoreactivities of apoB in LDL were tested in solid phase competitive binding radioimmunoassays using five monoclonal anti-LDL antibodies that reacted with defined epitopes of apoB-100. The study diet produced consistent decreases of LDL cholesterol and apoB concentrations by 25% and 17%, respectively. LDL compositions were altered. Mean LDL triglycerides increased 3% to 4% of total LDL mass (P less than 0.004), and LDL particle sizes decreased (P less than 0.01). In radioimmunoassays that contained monoclonal antibody B1B3, an antibody that inhibits binding of LDL to the LDL receptor, the mean ED50 value for LDL protein was reduced from 3.75 to 2.66 micrograms (P less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)     

The Pla surface protease/adhesin of Yersinia pestis mediates bacterial invasion into human endothelial cells

Oxidation of low density lipoprotein (LDL) induced by hypochlorous acid (HOCl) leading to LDL(-), a minimally oxidized subspecies of LDL, was investigated. LDL(-) is characterized by its greater electronegativity and oxidative status, and is found in plasma in vivo. Its concentration was found to be elevated under conditions that predispose humans to atherosclerosis. We found that HOCl also converts LDL rapidly to an even more oxidized state, identified as LDL(2-), which is more electronegative than LDL(-). After milder oxidation for short durations, formation of LDL(-) takes place while less LDL(2-) is formed. Under these conditions, addition of methionine not only suppressed further oxidation of LDL but also favored the formation of LDL(-) over LDL(2-), possibly by removing chloramines at lysyl residues of LDL. The presence of lipoprotein-deficient plasma did not prevent HOCl-mediated conversion of LDL to more electronegative species. It is concluded that the HOCl-mediated conversion of LDL into more electronegative species might be physiologically relevant.     

Further resolution of the low density lipoprotein spectrum in normal human plasma: physicochemical characteristics of discrete subspecies separated by density gradient ultracentrifugation

The molecular basis of the heterogeneity of plasma low density lipoproteins (LDL, d 1.024-1.050 g/ml) was evaluated in 40 normolipidemic male subjects following fractionation by isopycnic density gradient ultracentrifugation into eight major subspecies. The mass profile of our subjects' LDL uniformly displayed single symmetric or asymmetric peaks as a function of density; the peak occurred most frequently (20 subjects) in subfraction 7 (d 1.0297-1.0327 g/ml). Several physicochemical properties (hydrodynamic behavior, electrophoretic mobility, chemical composition, size and particle heterogeneity, and apolipoprotein heterogeneity) of the LDL subfractions were examined. Hydrodynamic analyses revealed unimodal distributions and distinct peak Sf degree rates in individual subfractions. Such behavior correlated well with particle size and heterogeneity data, in which LDL subspecies were typically resolved as unique narrow bands by gradient gel electrophoresis. Subspecies with average densities of 1.024 to 1.0409 g/ml ranged from 229 to 214 A in particle diameter. LDL protein content increased in parallel with density while the proportion of triglyceride diminished; cholesteryl esters predominated, accounting for approximately 40% or more by weight. Distinct differences in net electric charge were demonstrated by electrophoresis in agarose gel, the subspecies with average density of 1.0314 g/ml displaying the lowest net negative charge. ApoB-100 was the major apoprotein in all subspecies, and constituted the unique protein component over the density interval 1.0271-1.0393 g/ml. ApoE and apo[a] were detected at densities less than 1.0271 and greater than 1.0393 g/ml. While apoE was evenly distributed within these two regions, representing up to 2% of apoLDL, the distribution of apo[a] was skewed towards the denser region, in which it amounted to 3-7% of apoLDL. ApoC-III was detectable as a trace component at densities greater than 1.0358 g/ml. Calculation of the number of molecules of each chemical component per LDL subspecies showed the presence of one copy of apoB-100 per particle, in association with decreasing amounts of cholesteryl ester, free cholesterol, and phospholipid. These data indicate that a similar overall molecular organization and structure is maintained in a unimodal distribution of LDL particle subspecies over the density range approximately 1.02 to 1.05 g/ml. In sum, our data may be interpreted to suggest that microheterogeneity in the physicochemical properties of human LDL subspecies reflects dissimilarities in their origins, intravascular metabolism, tissular fate, and possibly in their atherogenicity.     

High-performance liquid chromatography of peptide bioregulators, their fragments and derivatives. I. Chromatographic pattern of corticotropin fragments of Zorbax ODS sorbent

The influence of acetonitrile concentration in the eluent and of the peptide hydrophobicity on the capacity factors has been studied. The equation is proposed that describes retention as a function of the eluent characteristics and the peptide composition. The hydrophobicity increments for -COOH, -NH2, and greater than CHCONH-fragments in the studied chromatographic system have been determined. The proposed model of peptide retention is useful for a prior evaluation of the eluent composition that is necessary to elute a compound at a given capacity factor. It can be also used for the qualitative interpretation of peptide chromatograms.     

NaCl 胁迫下小麦突变体和野生型叶片中一些有机溶质累积和基因表达差异

盐胁迫下突变体和野生型叶片中的脯氨酸累积量均有显著的增加,野生型的增加幅度不及突变体。至９６ ｈ ,两者含量均下降,但突变体的脯氨酸含量仍高于野生型。１００ｍ ｍｏｌ／Ｌ的ＮａＣｌ 胁迫７２ ｈ ,突变体叶片中可溶性糖的含量有显著的增加,增加量随盐浓度增加而降低。至９６ ｈ,各个盐浓度处理的突变体可溶性糖的含量基本恢复到其对照的水平;除１００ ｍｍｏｌ／Ｌ 盐胁迫处理组外,野生型叶片中可溶性糖含量均大幅度下降。盐胁迫下突变体和野生型叶片细胞可溶性蛋白组分有明显的差异。ｍＲＮＡ 差异显示结果表明,突变体有６ 个差异性的ｃＤＮＡ 片段     

Self-assembly of HEK cell-secreted ApoE particles resembles ApoE enrichment of lipoproteins as a ligand for the LDL receptor-related protein

Recent studies have shown that the lipidation and assembly state of apolipoprotein E (apoE) determine receptor recognition and amyloid-beta peptide (Abeta) binding. We previously demonstrated that apoE secreted by HEK cells stably expressing apoE3 or apoE4 (HEK-apoE) binds Abeta and inhibits Abeta-induced neurotoxicity by an isoform-specific process that requires apoE receptors. Here we characterized the structure of HEK-apoE assemblies and determined their receptor binding specificity. By chromatography, HEK-apoE elutes in high molecular mass fractions and is the size of plasma HDL, consistent with a multiprotein assembly. No lipid was associated with these apoE assemblies. Several methods for analyzing receptor binding indicate that HEK-apoE is a ligand for low-density lipoprotein (LDL) receptor-related protein (LRP) but not the LDL receptor. This suggests that self-assembly of apoE may induce a functional conformation necessary for binding to LRP. Our results indicate that, in addition to lipid content, the assembly state of apoE influences Abeta binding and receptor recognition.