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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Five glycosphingolipids (GSL), glucosylceramide, lactosylceramide, trihexosylceramide, globoside, and hematoside (GM3) were studied in serum from normal human subjects and patients with dyslipoproteinemia and found to be exclusively associated with the various classes of serum lipoproteins. Based on a unit weight of lipoprotein protein, the total amount of GSL in serum normal subjects was twice as high in very low density lipoprotein (VLDL) (d less than 1.006 g/ml) and low density lipoprotein (LDL) (d 1.019-1.063 g/ml) as in high density lipoproteins HDL2 (d 1.063-1.125 g/ml) or HDL3 (d 1.125-1.21 g/ml). In abetalipoproteinemia the levels of serum GSL were slightly reduced when compared to normal serum and were all found in the only existing lipoprotein, HDL; this contained 2-3 moles of GSL/
mole
of lipoprotein as compared to 0.5 GSL/
mole
in normal HDL. In hypobetalipoproteinemia and Tangier disease, the serum glycosphingolipids were 10 to 30% reduced in concentration compared to the 75% reduction in other lipids, and were again found to be associated only with the serum lipoproteins. The relative proportions of GSL did not vary substantially in the normo- and hypolipidemic subjects studied. Only in patients with homozygous
familial hypercholesterolemia
was there a significant (3-4-fold) elevation of all of the five GSL species and this elevation of all of the five GSL species and this elevation correlated well with that of the circulating cholesterol and LDL. On a molar basis the LDL of these patients contained the same amount of GSL as normal subjects (5 moles GSL/
mole
protein). It is concluded that: (1) glycosphingolipids are associated only with the major lipoprotein classes in both normal and dyslipoproteinemic serum; (2) the relative proportions of the five glycosphingolipids are not significantly affected by dyslipoproteinemia; (3) only in severe hypolipoproteinemia do the remaining serum lipoproteins carry a complement of glycosphingolipids greater than normal. Although our results establish that glycosphingolipids are intimately associated with serum lipoproteins, the mode of association or the structural and functional significance of such an association remains undetermined.
...
PMID:Distribution of glycosphingolipids in the serum lipoproteins of normal human subjects and patients with hypo- and hyperlipidemias. 17 13
Platelets from individuals with
familial hypercholesterolemia
show increased sensitivity to the aggregating atents, epinephrine and ADP. Since the mechanism of this abnormal sensitivity is unknown, we examined, in vitro, the influence of the plasma lipid environment on the function of platelets. The composition of plasma lipids was altered by the addition of sonicated cholesterol-dipalmitoyl lecithin liposomes which were "cholesterol normal" (cholesterol-phospholipid
mole
ratio [C/P] equals 1.0, "cholesterol rich" (C/P eauals 2.2), or "cholesterol poor" (C/P equals 0). Cholesterol-normal liposomes had no influence on platelet lipids or platelet function. In contrast, after incubation for 5 h at 37 degrees C with cholesterol-rich liposomes, normal platelets acquired 39.2% excess cholesterol with no change in phospholipids or protein. The percent increase in platelet membrane cholesterol was three-fold that of the granule fraction. The acquisition of cholesterol by platelets was associated with a 35-fold increase in sensitivity to epinephrine-induced aggregation (P less than 0.001) and 15-fold increase to ADP aggregation (P less than 0.001), as determined both by aggregometry and by [13C]serotonin release. Response to thrombin or collagen was unchanged. Platelets incubated with cholesterol-poor liposomes underwent a selective loss of 21.4% cholesterol and this was associated with an 18-fold reduction in their sensitivity to epinephrine. These studies demonstrate that the cholesterol content of platelets is dependent on the lipid composition of the milier. Cholesterol acquired by platelets may exert its effect on platelet function by a modification of the platelet membrane.
...
PMID:Platelet hypersensitivity induced by cholesterol incorporation. 111 69
The mechanism by which dietary cis-unsaturated fatty acids lower plasma levels of low-density lipoprotein (LDL) cholesterol is unknown. Since plasma membrane incorporation of dietary cis-unsaturated fatty acids is known to alter the function of plasma membrane associated proteins, perhaps by increasing membrane fluidity, we examined
LDL receptor
function in Hep G2 hepatocytes that were unmodified, enriched with the cis-unsaturated fatty acids oleate or linoleate, or enriched with the saturated fatty acids stearate or palmitate. Hepatocytes enriched in cis-unsaturated fatty acids exhibited augmented LDL binding, uptake, and degradation in comparison to unmodified cells. In contrast, Hep G2 hepatocytes enriched in saturated fatty acids had decreased LDL binding, uptake, and degradation. Enrichment with oleate or linoleate resulted in a decrease in the calculated fatty acyl
mole
-weighted melting point of the plasma membrane and an increase in plasma membrane fluidity, as measured by the steady-state fluorescence polarization of 1,6-diphenyl-1,3,5-hexatriene incorporated into the plasma membrane. Conversely, stearate or palmitate enrichment resulted in an increased plasma membrane fatty acyl
mole
-weighted melting point and decreased plasma membrane fluidity. LDL binding, uptake, and degradation varied with plasma membrane fluidity in a highly correlated manner. Thus, one mechanism by which dietary cis-unsaturated fatty acids lower LDL cholesterol may possibly involve an alteration in membrane lipid composition or membrane fluidity that promotes enhanced
LDL receptor
function, thereby leading to increased hepatic clearance of LDL.
...
PMID:Effect of membrane fatty acyl composition on LDL metabolism in Hep G2 hepatocytes. 216 36
We have used both proteolysis and reconstitution experiments to characterize the determinants for
LDL receptor
binding of HTG-VLDL. In these studies, we showed that the removal of approximately one
mole
of apo E per
mole
of HTG-VLDL (Sf 100-400) and HTG-VLDL (Sf 60-100) by thrombin-specific cleavage results in loss of receptor binding and concomitant loss of suppression of HMG-CoA reductase. This is in direct contrast to the lack of effect thrombin cleavage has on the receptor-mediated uptake of LDL, an apo B-mediated process. We were able to reconstitute receptor binding in thrombin-treated HTG-VLDL (Sf 100-400) by the specific reincorporation of one
mole
of apo E into the VLDL. The incorporation of one
mole
of apo E into normal non-suppressive VLDL (Sf 60-400) also enables this lipoprotein to bind to the receptor as effectively as LDL. Trypsin, which destroys apo E-mediated, but not apo B-mediated binding to the
LDL receptor
, abolishes binding of HTG-VLDL (Sf 100-400) and HTG-VLDL (Sf 60-100), but not that of HTG-VLDL (Sf 20-60), IDL, or LDL to the
LDL receptor
. Therefore, we conclude that apo E of the appropriate conformation is required for receptor-mediated uptake by the
LDL receptor
of large TG-rich lipoproteins (Sf greater than 60). This conformation of apo E is probably related to the surface on which it is found (i.e., size of the particle) and the mode of incorporation into the phospholipid surface (i.e., transferred from plasma HDL). In large TG-rich particles, it appears that the intact apo E is necessary for the proper orientation of the molecule on the surface, with the carboxy-terminal one-third needed to anchor the apoprotein to the phospholipid surface. We believe that the binding of apo E to the
LDL receptor
is a redundant system and is used as a backup system in abnormal pathological states such as hypertriglyceridemia, abetalipoproteinemia, and hypobetalipoproteinemia. In the case of hypertriglyceridemia, where the lipolysis mechanism is overloaded, the abnormal binding of HTG-VLDL (Sf greater than 60) provides an alternate catabolic route for their removal from plasma. In the cases of a beta- and hypobetalipoproteinemia, where the normal particles for cholesterol delivery are either absent or at low levels, apo E-containing particles can serve to deliver cholesterol to cells as has been recently observed in vitro.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Expression of LDL receptor binding determinants in very low density lipoproteins. 390 64
Slow refolding of human apolipoprotein E (apoE) in solution after guanidine- or cholate-induced denaturation followed by dialysis under controlled conditions was investigated using various spectroscopic properties of fluorescein- and dansyl-labeled apolipoprotein molecules. The results suggest that the last phase(s) of apoE refolding in solution include a slow (several hours at 24 degrees C) interconversion of a self-associated 'open' conformer into a more dense 'closed' conformer. The hydrophobic interactions are primarily responsible for the formation of this more compact apoE structure. To visualize the contribution of apolipoprotein conformation and/or the number of 'active' lipid-bound apoE molecules in the reaction of binding to the low density lipoprotein receptor (LDLr) by solid-phase binding assay, the complexes of human plasma apolipoprotein or recombinant (rec) apoE3 with dipalmitoylphosphatidylcholine (DPPC) or palmitoyloleoylphosphatidylcholine (POPC) varying in size were used. For seven complexes with plasma protein (four DPPC and three POPC complexes), the final phosphatidylcholine (PC)/protein
mole
ratio ranged from 117 to 279; affinity constant K(a) averaged for both PCs and plotted against this ratio abruptly increased from 3.8 x 10(7) to 3.8 x 10(8) M(-1) with a transition midpoint of 150-180 PC/apoE,
mole
ratio. Two DPPC complexes with rec protein bind much more efficiently. Complexes with both plasma and rec apoE were able to compete with very low density lipoproteins (VLDL) or low density lipoproteins (LDL) isolated from patients with E3/3 phenotype, for binding to the LDLr. Again, the competition efficiency abruptly increased at the increase in PC content with a transition midpoint of 130 PC/apoE,
mole
ratio. The transitions observed both in direct and competitive binding assay probably correspond to the abrupt increase in the number of 'active' apoE molecules on the complex surface accompanying the change in the size and/or in the shape of the complexes. The efficiency of apoE and apoB as the corresponding major ligands in the binding reaction of VLDL and LDL to the
LDL receptor
was compared. VLDL bind to LDLr following a simple encounter complex model, while LDL binding was characterized by a more complex two-step model with an additional isomerization step. The analysis of the binding data led us to suggest the existence of the continuum from several (2-3) apoE molecules on the surface of TG-rich particles that resulted in the increased binding affinity, on average 3.5-fold higher, compared to LDL. The existence of a complex equilibrium between aqueous and different lipid-bound forms of apoE is proposed, in particular, the formation of a transient disc-lipoprotein particle structure during the interaction with LDLr in vivo as well as in LPL-stimulated lipolysis of the lipid phase of the particle.
...
PMID:Conformation of apolipoprotein E both in free and in lipid-bound form may determine the avidity of triglyceride-rich lipoproteins to the LDL receptor: structural and kinetic study. 1068 27
Very low (VLDL) and low density lipoproteins (LDL) were isolated from plasma of patients with the E3/3 phenotype which were divided into three groups based on their plasma triglyceride content: low (TG<200 mg/dl, TG(l)), intermediate (200<300 mg/dl, TG(i)300 mg/dl, TG(h)). The protein density (PD) on the VLDL and LDL surface was calculated from lipoprotein composition and protein location was studied by tryptophan fluorescence quenching by I(-) anions at 25 degrees C and 40 degrees C. A comparison of the TG(h) with the TG(l) group revealed a significant (<0.05) increase of the PD parameter as much as 21% for VLDL, but not for LDL where this parameter did not change for any group; generally, PD(LDL) values were 3.2-3.8-fold lower than PD(VLDL). In accordance with this difference, the tryptophan accessibility f in VLDL vs. LDL was lower at both temperatures. There were temperature-induced changes of the f parameter in opposite directions for these lipoproteins. The difference in f value gradually decreased for VLDL in the direction TG(l)TG(i)TG(h) while for LDL there was a U-shaped dependence for these groups. The Stern-Volmer quenching constant K(S-V) which is sensitive to both temperature and viscosity, did not change for VLDL, but K(S-V)(LDL) was 2-3-fold higher for the TG(i) group compared to the other two. The efficiencies of VLDL and LDL binding to the
LDL receptor
(LDLr) in vitro were compared by solid-phase assay free of steric hindrance observed in cell binding. The maximal number of binding sites did not change for either type of particles and between groups. The association constant K(a) and apolipoprotein (apo) E/apoB
mole
ratio values all increased significantly for VLDL, but not for LDL, in comparison of the TG(i+h) with the TG(l) group. Based on VLDL and LDL concentrations in serum and on the affinity constant values obtained in an in vitro assay, VLDL concentrations corresponding to 50% inhibition of LDL binding (IC(50)) were calculated in an assumption of the competition of both ligands for LDLr in vivo; the mean values of IC(50) decreased 2-fold when plasma TG exceeded 200 mg/dl. The functional dependences of K(a)(VLDL), IC(50) and apoE content in VLDL (both fractional and absolute) and in serum on TG content in the whole concentration range studied were fitted to a saturation model. For all five parameters, the mean half-maximum values TG(1/2) were in the range 52-103 mg/dl. The efficiency of protein-protein interactions is suggested to differ in normolipidemic vs. HTG-VLDL and apoE content and/or protein density on VLDL surface may be the primary determinant(s) of the increased binding of HTG-VLDL to the
LDL receptor
. ApoCs may compete with apoE for the binding to the VLDL lipid surface as plasma triglyceride content increases. The possible competition of VLDL with LDL for the catabolism site(s) in vivo, when plasma TG increases, could explain the atherogenic action of TG-rich lipoproteins. Moreover, the 'dual action' hypothesis on anti-atherogenic action of apoE-containing high density lipoproteins (HDL) in vivo is suggested: besides the well-known effect of HDL as cholesteryl ester catabolic outway, the formation of a transient complex of apoE-containing discs appearing at the site of VLDL TG hydrolysis by lipoprotein lipase with VLDL particles proposed in our preceding paper promotes the efficient uptake of TG-rich particles; in hypertriglyceridemia due to the diminished HDL content this uptake seems to be impaired which results in the increased accumulation of the remnants of TG-rich particles. This explains the observed increase in cholesterol and triglyceride content in VLDL and LDL, respectively, due to the CETP-mediated exchange of cholesteryl ester and triglyceride molecules between these particles.
...
PMID:Structural peculiarities of the binding of very low density lipoproteins and low density lipoproteins to the LDL receptor in hypertriglyceridemia: role of apolipoprotein E. 1068 28
Susceptibility to the development of late-onset Alzheimer's disease is increased for individuals harboring one or more apolipoprotein E4 (apoE4) alleles. Although several isoform-specific effects of apoE have been identified, the relationship between biochemical function and risk factor assessment is unknown. Our previous studies showed that a physiologically relevant cell-derived apoE3 particle stimulates neurite outgrowth in an isoform-specific manner. In an attempt to delineate the biochemical mechanism responsible for the stimulatory effects of apoE3 on neurite outgrowth, we performed a detailed physical characterization of cell-derived apoE3 and apoE4 particles. Immunoaffinity chromatography followed by SDS-PAGE illustrated homogeneity in protein content (apoE >95%). The affinity-purified particles contained phospholipid and 1 mol of cholesterol per
mole
of apoE but no core lipids. Nondenaturing gradient gel electrophoresis identified two major particle populations with hydrated diameters of 8.0 and 9.2 nm. Neurite outgrowth assays performed with the affinity-purified particles resulted in similar isoform-specific differences as seen previously, apoE3 stimulatory and apoE4 neutral. Interestingly, we did not observe a reduction in apoE medium concentrations over the duration of the neurite outgrowth assays, suggesting little or no endocytic uptake. Ligand blot analysis demonstrated that the affinity-purified apoE particles bind to several Neuro-2a membrane proteins. Western blots of the Neuro-2a membrane proteins indicated that the
LDL receptor
, gp330, and LR8B might be involved in the apoE-binding event. These results discriminate against the lipid delivery hypothesis and suggest that the biological activity of the phospholipid apoE3 particles may be due to cell surface signaling.
...
PMID:Biochemical analysis of cell-derived apoE3 particles active in stimulating neurite outgrowth. 1136 6
Low density lipoproteins (LDL) have been cationized using the water-soluble carbodiimide, N-ethyl-N'-(3-trimethylpropylammonium) carbodiimide iodide at a reagent: lipoprotein
mole
ratio of 10 000:1. This was shown to increase the innate DNA-binding capacity of LDL 10-fold. [125I]-labeled carbodiimide-modified LDL ([125I])-labeled ECDI-LDL) appeared to recognize the
LDL receptor
on normal human skin fibroblasts, although some nonspecific binding also was detected. To demonstrate the large ionic component in the lipoprotein-DNA interactions, epsilon -NH2 amino groups on the apolipoprotein B-100 (apoB-100) component of LDL were acetylated with acetic anhydride. A nitrocellulose filter-binding assay revealed that acetylated LDL bound approximately 25% of the [3H]-labeled pBR322 plasmid DNA bound by native LDL under the same conditions. ECDI-LDL-[3H]-labeled plasmid DNA complexes were considerably more stable to NaCl challenge than complexes formed between [3H]-labeled plasmid DNA and native LDL. Thus, the half dissociation of ECDI-LDL containing complexes was achieved at 0.28 M NaCl, whereas for LDL-plasmid DNA complexes this was reached at 0.18 M NaCl. Displacement studies with native LDL studies showed that ECDI-LDL-[3H]-labeled plasmid DNA complexes retained the ability to recognize the
LDL receptor
on normal skin fibroblasts. Finally, ECDI-LDL complexes with pSV2CAT expression plasmid were shown to transfect CV-1 fibroblasts, a cell line known to specifically recognize apoB-liposome conjugates.
...
PMID:New cationized LDL-DNA complexes: their targeted delivery to fibroblasts in culture. 1294 43
