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.     

Preparation and properties of soluble, immunoreactive apoLDL.

Immunoreactive apo-low density lipoprotein (LDL), soluble in mildly alkaline buffers of low ionic strength, was prepared by attaching LDL to a DEAE-Sepharose column and eluting the lipids with a 0--2% (w/v) gradient of nonionic detergents. Brij-36T, Nonidet P-40, and Triton X-100 gave similar results. After washing the detergent from the column, the bound apoLDL was eluted with 1 M NaCl, pH 7.4, with recoveries up to 85%. This apoLDL could be dialyzed extensively against low ionic strength solutions, and remained soluble as long as the pH was above 7. Spectrophotometric analysis showed that less than 0.1% %w/v) of cholesterol or phospholipids and less than 1% (w/v) of detergent remained associated with the protein. The apoLDL cross-reacted with LDL against antisera prepared vs. intact LDL. Pore-gradient polyacrylamide gel electrophoresis, with SDS and urea, showed that this preparation was less aggregated than organic solvent extracted apolLDL and appeared to be made of oligomers of two monomeric subunits, one with molecular weight around 22,700 and a smaller one of approximately 8000. Isoelectric focusing showed that there also was charge heterogeneity in the soluble apoLDL.     

LDL亚组分研究进展

根据低密度脂蛋白（low density lipoprotein,LDL）颗粒的不均一性,可以利用密度梯度超速离心法和梯度凝胶电泳法将其分成若干亚组分。近年来,对于LDL亚组分分离方法的研究取得了显著进展。除对上述两种基本实验方法进行改进外,有实验室采用Western印迹法对LDL颗粒进行分离。LDL亚组分分离方法的进步,使对LDL亚组分的认识更加深入：LDL亚组分的高度不均一性、氧化易感性及电负性等不同特性与动脉粥样硬化（atherosclerosis,AS）关系密切。LDL亚组分的研究为认识动脉粥样硬化及其相关疾病提供了重要的理论依据。     

Structural heterogeneity of apoB-containing serum lipoproteins visualized using cryo-electron microscopy.

Cryo-electron microscopy was used to analyze the structure of lipoprotein particles in density gradient subfractions of human very low density lipoprotein (VLDL), intermediate density lipoprotein (IDL), and low density lipoprotein (LDL). Lipoproteins from a normolipidemic subject with relatively large and buoyant LDL (pattern A) and from a subject with a predominance of small dense LDL (pattern B) were compared. Projections of VLDL in vitreous ice were heterogeneous in size, but all were circular with a relatively even distribution of contrast. Selected projections of LDL, on the other hand, were circular with a high density ring or rectangular with two high density bands. Both circular and rectangular LDL projections decreased in average size with increasing subfraction density, but were found in all of 10 density gradient subfractions, both in pattern A and in pattern B profiles. Preparations of total IDL contained particles with the structural features of VLDL as well as particles resembling LDL. IDL particles resembling LDL were observed in specific density gradient subfractions in the denser region of the VLDL;-IDL density range. Within the group of IDL particles resembling LDL considerable heterogeneity was observed, but no structural features specific for the pattern A or pattern B lipoprotein profile were recognized.The observed structural heterogeneity of the apolipoprotein B-containing serum lipoproteins may reflect differences in the composition of these particles that may also influence their metabolic and pathologic properties.     

Oxidation-labile subfraction of human plasma low density lipoprotein isolated by ion-exchange chromatography

We isolated subfractions of human plasma low density lipoprotein (LDL) using ion-exchange chromatography. Plasma LDL from normolipidemic subjects were applied to a DEAE Sepharose 6B column. After elution of the bulk of LDL at 150 mM NaCl (the major fraction), the residual LDL was eluted at 500 mM NaCl and designated as the minor fraction. The minor fraction, only less than 1% of total LDL, tended to be somewhat similar in certain properties to oxidized LDL, e.g., an increased negative charge, higher protein/cholesterol ratio, and a higher flotation density than native LDL. These results were consistent with data reported by Avogaro et al. (1988. Arteriosclerosis. 8: 79-87). However, assays of 125I-labeled LDL binding activity for LDL receptors equal to that of the major fraction. Incorporation of [14C]oleate into cholesteryl ester [acyl-CoA:cholesterol acyltransferase (ACAT) activity] in mouse peritoneal macrophages incubated with the minor fraction was only slightly greater than that with the major fraction. Incubation of the minor fraction with 0.5 microM Cu2+ caused a remarkable stimulation of ACAT activity, while stimulation by the major fraction required incubation with 5 microM Cu2+, suggesting that the minor fraction was relatively labile to oxidation. The minor but definite presence of a plasma LDL subfraction more negative and susceptible to oxidation implicates the possibility of its association with atherogenesis.     

Role of LDL subfraction heterogeneity in the reduced binding of low density lipoproteins to arterial proteoglycans in cynomolgus monkeys fed a fish oil diet.

Previous studies using cynomolgus monkeys have shown that isocaloric substitution of dietary fish oil for lard reduced the in vitro binding of plasma low density lipoproteins (LDL) to arterial proteoglycans (PG) (Edwards, I.J., A.K. Gebre, W. D. Wagner, and J. S. Parks. 1991. Arterioscler. Thromb., 11: 1778-1785). The purpose of the present study was to determine whether all LDL subfractions were equally affected by the type of dietary fat with regard to PG binding and to identify compositional changes in LDL subfractions that might relate to the differential in PG binding. Two groups of cynomolgus monkeys (n = 5 each) were fed atherogenic diets (40% calories as fat; 0.26 mg cholesterol/kcal) containing 20% of calories as egg yolk and 20% as either lard or menhaden fish oil. LDL were isolated from plasma by ultracentrifugation and size exclusion chromatography and subfractionated by density gradient centrifugation. Three density ranges of LDL subfractions were collected from the gradients for determination of chemical composition, apoE and apoB content by ELISA, and binding to arterial PG in vitro. The d 1.015-1.025 g/ml subfraction contained 39 +/- 8% of the LDL cholesterol in the lard group but only 7 +/- 3% for the fish oil group. Values for cholesterol distribution were opposite for the d 1.035-1.045 g/ml subfraction, 8 +/- 1% versus 41 +/- 8%, respectively. Similar trends were noted for the distribution of apoB. For the lard group, LDL binding to arterial PG increased with decreasing density (i.e., increasing size) of the subfractions.(ABSTRACT TRUNCATED AT 250 WORDS)     

The content of various active and inactive genes in chromatin fractions with different accessibilities of DNA to polycyclic aromatic hydrocarbons

Nuclear chromatin was separated into four fractions according to solubility in low (0.2 mM MgCl2, 10 mM Tris-HCl, pH 7.6) and high (2 M NaCl) ionic strengths after digestion of nuclear DNA with nucleases. In nuclear matrix DNA the ratio of active to inactive genes was always higher than that in the original total DNA, i.e., 25 times greater in rat liver nuclei. In DNA released from the nuclei into a low ionic strength buffer the active to inactive gene ratio was lower than in total DNA (3.7 times as low in case of rat liver nuclei). The amount of carcinogens in matrix DNA exceeded that of DNA soluble in a low ionic strength buffer (3-4 times in case of rat liver nuclei and 16 times in case of hamster embryo cells). The two other fractions occupied an intermediate position between the above said fractions of DNA. The experimental results suggest that the level of carcinogen-induced modifications may be increased in active genes, including transcribed protooncogenes.     

Characterization and quantification of serum lipoprotein subfractions by capillary isotachophoresis: relationships with lipid, apolipoprotein, and lipoprotein levels.

Human serum lipoproteins are currently defined according to their density as well as according to their electrophoretic mobility. They can be fractionated into discrete subspecies which exhibit variations in their structure and function. Capillary electrophoresis has been suggested to be a potential analytical strategy in understanding metabolic lipoprotein heterogeneity. In a sample of 35 normolipidemic subjects, we analyzed ceramide-labeled serum lipoproteins by capillary isotachophoresis linked to laser-induced fluorescent detection. Capillary isotachophoresis showed advantage to be an automated, rapid (6 min) and reproducible (CV < 7%) separation mode, on-line monitoring lipoprotein subfractions according to net charge. HDL were separated into three subfractions: i) the fast migrating HDL correlated positively with serum apoA-I (P < 0.05) and negatively with triglyceride (P < 0.01) concentrations, ii) the intermediate migrating HDL involved in HDL-cholesterol delivery and inversely related to LDL particles concentration (P < 0.001), and iii) the slow migrating prebeta(1)HDL. Triglyceride level was significantly associated with two fractions: i) the VLDL fraction correlated positively with apoE serum concentration (P < 0.01), and ii) the IDL fraction closely and positively associated with apoC-III-containing lipoprotein level (P < 0.001). Two LDL subfractions were positively related to LDL-cholesterol (0.05 相似文献   

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.     

Quantitation of the in vitro free cholesterol exchange of human red cells and lipoproteins

The exchange of free cholesterol in vitro between human red blood cells and low density lipoproteins (LDL) was quantified. The flux of sterol between LDL and red cells was relatively constant over a wide range of concentrations of free cholesterol in lipoproteins. In a system containing a suspension of red blood cells in a mixed solution of high density lipoproteins (HDL) and LDL, the fractional rate of exchange of HDL cholesterol was most rapid followed by LDL and lastly, by red cells. Increasing the ionic strength of the incubation media had no effect on the exchange of cholesterol between LDL and red cells. However, when both HDL and LDL were incubated with red cells in a buffer of increased ionic strength, total red cell cholesterol exchange was unaltered, but proportionately more exchange occurred with HDL and less with LDL. Addition of acetone to the buffer increased the exchange of cholesterol between LDL and red cells but produced no increment in red cell-HDL exchange.     

Isolation of a low molecular weight inhibitor of lymphocyte proliferation from tumorous ascites

Intraperitoneal growth of P-815 mastocytoma cells in syngeneic DBA/2 mice produces ascites fluid which strongly inhibits mitogen-stimulated lymphocyte proliferation. The less than 10,000 m.w. fraction from gel filtration chromatography of tumorous ascites on Sephadex G-150 showed no inhibition of proliferation when eluted under physiologic conditions but was inhibitory when eluted with a high ionic strength, acidic buffer. The organic phase of a chloroform/methanol extract of the low m.w. fraction contained all the inhibitory activity. Purification of the inhibitor to relative homogeneity was achieved by reverse phase, HPLC with a gradient of acetonitrile in dilute acetate buffer. Inhibitory activity eluted between 30 and 35% acetonitrile. The active fraction contained less than 30 pg/ml PGE by RIA which was insufficient to inhibit proliferation and may actually have been stimulatory. Inhibition comparable to that produced by the ascites fraction required greater than 300 pg/ml of PGE. This low m.w. (less than 10,000), lipid-like inhibitor of lymphocyte proliferation is acid stable, not sensitive to proteolytic enzymes, soluble in both aqueous and organic solvents and occurs normally bound to a higher m.w. carrier molecule.     

Physico-chemical properties of low density lipoproteins isolated in an equilibrium density gradient

The tryptophanyls of total low density lipoproteins (LDL) (1.006-1.063 g/ml) from coronary heart disease (CHD) patients and subjects without CHD signs had different accessibility to fluorescence quenchers (I-and acrylamide). LDL were separated into subfractions in equilibrium density gradient. The coefficient of extinction , quantum yield and other spectral characteristics of LDL intrinsic fluorescence, rotational mobility of maleimide spin labels and fatty acid spin probe were different in LDL subfractions from healthy subjects. LDL subfractions with hydrated density 1.045-1.05 g/ml bound to B,E-receptors of cultured fibroblasts more effectively than did subfractions with density 1.01-1.03 g/ml. Structural differences of apo-B in the particles with different lipid to protein ratio are supposed.     

Fractionation and recovery of whey proteins by hydrophobic interaction chromatography

A method for the recovery and fractionation of whey proteins from a whey protein concentrate (80%, w/w) by hydrophobic interaction chromatography is proposed. Standard proteins and WPC 80 dissolved in phosphate buffer with ammonium sulfate 1 M were loaded in a HiPrep Octyl Sepharose FF column coupled to a fast protein liquid chromatography (FPLC) system and eluted by decreasing the ionic strength of the buffer using a salt gradient. The results showed that the most hydrophobic protein from whey is α-lactalbumin and the less hydrophobic is lactoferrin. It was possible to recover 45.2% of β-lactoglobulin using the HiPrep Octyl Sepharose FF column from the whey protein concentrate mixture with 99.6% purity on total protein basis.     

Density distribution and physicochemical properties of plasma lipoproteins and apolipoproteins in the goose, Anser anser, a potential model of liver steatosis

The fractionation and physicochemical characterization of the complex molecular components composing the plasma lipoprotein spectrum in the goose, a potential model of liver steatosis, are described. Twenty lipoprotein subfractions (d less than 1.222 g/ml) were separated by isopycnic density gradient ultracentrifugation, and characterized according to their chemical composition, particle size and particle heterogeneity, electrophoretic mobility, and apolipoprotein content. Analytical ultracentrifugal analyses showed high density lipoproteins (HDL) to predominate (approximately 450 mg/dl plasma), the peak of its distribution occurring at d approximately 1.090 g/ml (F1.21 approximately 2.5). The HDL class displayed marked density heterogeneity, HDL1-like particles being detected up to a lower density limit of approximately 1.020 g/ml, particle size decreasing progressively from 17-19 nm at d 1.024-1.028 g/ml to 10.5-12 nm (d 1.055-1.065 g/ml), and then remaining constant (approximately 9 nm) at densities greater than 1.065 g/ml. HDL subfractions displayed multiple size species; five subspecies were present over the range d 1.103-1.183 g/ml with diameters of 10.5, 9.9, 9.0, 8.2, and 7.5 nm, four in the range d 1.090-1.103 g/ml (diameters 10.5, 9.9, 9.0, and 8.2 nm) and three over the range d 1.076-1.090 g/ml (diameters 10.5, 9.9, and 9.0 nm). ApoA-I (Mr 25,000-27,000) was the major apolipoprotein in all goose HDL subfractions, while the minor components (apparent Mr 100,000, 91,000, 64,000, 58,000, approximately 42,000, 18,000 and apoC-like proteins) showed marked quantitative and qualitative variation across this density range (i.e., 1.055-1.165 g/ml). The d 1.063 g/ml boundary for separation of goose low density lipoproteins (LDL) from HDL was inappropriate, since HDL-like particles were present in the density interval 1.024-1.063 g/ml, while particles enriched in apoB (Mr approximately 540,000) and resembling LDL in size (approximately 20.5 nm) were detected up to a density of approximately 1.076 g/ml. Goose LDL itself was a major component of the profile (90-172 mg/dl) with a single peak of high flotation rate (Sf approximately 10.5). The physicochemical properties and apolipoprotein content of intermediate density lipoproteins (IDL) and LDL varied but little over the range d 1.013-1.040 g/ml, presenting as two particle species (diameters 20.5 and 21 nm) of essentially constant chemical composition; LDL (d 1.019-1.040 g/ml) were separated from HDL1 by gel filtration chromatography and appeared to contain primarily apoB with lesser amounts of apoA-I.(ABSTRACT TRUNCATED AT 400 WORDS)     

Ca2+-induced hydrophobic site on calmodulin: application for purification of calmodulin by phenyl-Sepharose affinity chromatography

Calmodulin binds quantitatively to phenyl-Sepharose and octyl-Sepharose affinity columns in the presence of micromolar concentrations of Ca²⁺. In addition to EGTA, calmodulin also can be eluted from these affinity columns with low ionic strength buffer, non-ionic detergent (i.e., 1% Triton X-100), or ethylene glycol (50%), suggesting hydrophobic interaction. Using hydrophobic interaction chromatography calmodulin can be purified to homogeneity from bovine brain homogenate in a single step. For large-scale purification the protein fraction containing calmodulin was concentrated by isoelectric precipitation prior to application to the affinity column. The yield obtained by this procedure (160–180 mg calmodulin per kg brain) is significantly greater, and the time required (～ 5 hr) is substantially less, than that of previously described procedures for calmodulin purification. It is apparent that phenyl-Sepharose offers several advantages over phenothiazine-Sepharose for affinity purification of calmodulin.     

Single spin density gradient ultracentrifugation method for the detection and isolation of light and heavy low density lipoprotein subfractions

A single spin density gradient ultracentrifugation method in a swinging bucket rotor has been applied for the detection and isolation of low density lipoprotein (LDL) subfractions. The visualization of the LDL heterogeneity was facilitated by prestaining the serum with Coomassie Brilliant Blue R prior to density gradient ultracentrifugation for 19.5 hr. A total of 13 human serum pools was analyzed. In each pool, two LDL subfractions, a lighter LDL1 subfraction, occasionally showing a subdivision into two bands, LDL1A and LDL1B, and a heavier LDL2 could be clearly distinguished by the banding pattern in the density gradient. Physicochemical characteristics of the isolated LDL subfractions were determined. The simple method for detection and isolation of these subfractions presented here may facilitate future studies on LDL heterogeneity.     

A species comparison of low density lipoprotein heterogeneity in nonhuman primates fed atherogenic diets

Six male cynomolgus monkeys and five male African green monkeys were fed dietary cholesterol to induce hypercholesterolemia. The two groups studied had equivalent total plasma cholesterol concentrations. Low density lipoproteins (LDL) were isolated from whole plasma by ultracentrifugation and separated from other lipoprotein classes by agarose column chromatography. LDL were further subfractionated by density gradient ultracentrifugation in a VTi-50 vertical rotor. The material within five density regions was pooled from each sample and molecular weight, electrophoretic mobility, apoprotein heterogeneity, and percentage composition were determined for each subfraction. In general, cynomolgus monkey LDL were larger and more polydisperse than African green monkey LDL, and the LDL subfractions of cynomolgus monkeys were generally of lower densities although molecular weights at any density were in the same range for both species. ApoB-100 was the major apoprotein in each subfraction. ApoE was frequently present in the less dense subfractions while apoA-I was often seen in the more dense subfractions. Cynomolgus monkey LDL appeared to contain more apoE than African green monkey LDL. Over the entire spectrum of LDL, the percentage composition of the particles at any given density was indistinguishable between the species. In general, the average cynomolgus monkey LDL was larger, more polydisperse, less dense, and appeared to contain more apoE than the average African green monkey LDL. One or all of these differences might help explain the increased susceptibility to diet-induced atherosclerosis seen in cynomolgus monkeys.     

Analysis of the migration behaviour of single microtubules in electric fields

By video contrast microscopy, individual microtubules formed from pure tubulin in the presence of taxol were studied in constant electric fields. At nearly physiological conditions, i.e., in a buffer at pH 6.8 and 120 mM ionic strength, suspended microtubules moved towards the anode with an electrophoretic mobility of approximately 2.6 x 10(-4) cm(2)/V s, corresponding to an unbalanced negative charge of 0.19 electron charges per tubulin dimer. Strikingly, this value is lower by a factor of at least 50 than that calculated from crystallographic data for the non-assembled tubulin dimer. Moreover, the taxol-stabilized microtubules had an isoelectric point of about pH 4.2 which is significantly lower than that known for the tubulin monomers. This indicates that microtubule formation is accompanied by substantial changes of charge distribution within the tubulin subunits. Constant electric fields were shown to affect also the orientation of microtubules gliding across a kinesin-coated surface at pH 6.8.     

Guinea pig low density lipoproteins: structural and metabolic heterogeneity

The structural and metabolic heterogeneity of low density lipoproteins (LDL, d 1.024-1.100 g/ml) has been investigated in the guinea pig. Two LDL subfractions, of d 1.024-1.050 and 1.050-1.100 g/ml, respectively, were isolated by sequential ultracentrifugation; while both were enriched in cholesteryl ester and apoB-100, the former was heterogeneous displaying three particle size species of diameters 26.9, 25.6, and 24.7 nm, whereas the denser subfraction was relatively homogeneous containing a single, smaller species (diam. 23.6 nm). The fractional catabolic rates (FCR) of the two LDL subfractions were alike (approximately 0.090 pools/hr) in the guinea pig in vivo. After modification of each subfraction by reductive methylation, the FCRs were reduced similarly and indicated that 70-80% of degradation occurred via the cellular LDL receptor pathway. However, the intravascular metabolism of these LDL subfractions, determined from the radioactive content of density gradient fractions as a function of time after injection of radiolabeled native or chemically modified LDL, tended to be distinct. Thus, while radiolabeled apoB-100 in the lighter subfraction maintained the initial density profile up to 48 hr, the radioactive profile of its methylated counterpart changed, the proportion of radioactivity in the lighter gradient fractions (d 1.027-1.032 g/ml) increasing while that in the denser (d 1.037-1.042 g/ml) fractions diminished. A more marked transformation occurred in LDL of d 1.050-1.100 g/ml, in which the radioactive profile shifted towards lighter particles of the d 1.024-1.050 g/ml species; this shift was partially dependent on the LDL receptor, since it was more pronounced in the methylated subfraction. Furthermore, a net increase in the radioactive content of gradient subfractions 7 to 9 (d 1.032-1.042 g/ml) was found 10 hr after injection of methylated LDL of d 1.050-1.100 g/ml, at which time the bulk of LDL radioactivity had been removed from plasma. Several mechanisms, acting alone or in combination, may account for these findings; among them, some degree of transformation of dense to lighter LDL species appears a prerequisite. In conclusion, our data attest to the structural heterogeneity of circulating LDL in the guinea pig, and suggest that the intravascular processing and metabolism of LDL particle subspecies is directly related to their structure and physicochemical properties.