Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The principal form of the serum low density lipoprotein (LDL) in man, baboon, rhesus monkey and pig was isolated by preparative ultracentrifugation in the density interval 1.024-1.045 g/ml. The physicochemical characteristics of pig LDL most closely resembled those of man; thus, electrophoretic studies suggested that both baboon and rhesus LDL have a greater surface charge than that of their human counterpart, and electron-microscopic investigations showed baboon LDL (245 A) to be larger and rhesus LDL (205 A) smaller than those of man (217 A) and pig (228 A). In contrast, the immunological relationship between LDL from the two Old World monkeys and that of man was much closer (80-85% cross-reactivity by micro-immunoprecipitation) than that between pig and man (35% cross-reactivity). The principal difference between pig and human LDL appeared to reside in their protein and carbohydrate moieties. There was a marked resemblance between the protein moieties (apo-LDL) of LDL from the four species. The principal component of each animal apo-LDL was separated by gel-filtration chromatography and amounted to greater than 95% of the total protein; it exhibited a high molecular weight (greater than 250,000) upon SDS-polyacrylamide-gel electrophoresis and was indistinguishable from human apolipoprotein B in amino acid composition. Differences both between the apo-LDL and between the apo-B preparations from the four species, however, were detectable by immunological procedures. Such studies revealed inter-species relationships which were essentially the same as those observed between the respective native LDL preparations. The soluble apolipoproteins, present as minor components (less than 5%) of each apo-LDL, were compared by their electrophoretic mobility in polyacrylamide gel; the pattern seen in baboon and rhesus apo-LDL appeared to be most closely akin to that typical of their human counterpart. It is apparent that many characteristics typical of human serum LDL are found in those of the pig, rhesus monkey and baboon. Moreover, in view of the striking relationship existing between the immunological properties and apo-protein components of the LDL of the two Old World monkeys and that of man, these subhuman primates appear to be highly suitable as animal models for experimental atherosclerosis.
Atherosclerosis
PMID:Comparison of the serum low density lipoprotein and of its apoprotein in the pig, rhesus monkey and baboon with that in man. 18 32

Specific areas of fourteen autopsied abdominal aortas were layer-dissected, histologically graded and solubilzed with SDS, dilute saline or SDS-urea and beta-mercaptoethanol. Comparisons were made between intima, media, lesions of progressive severity and an in-vivo thrombus. Apparent molecular weights were calculated from the Coomassie blue stained gels of these extracts extracts and each band's contribution estimated by integrative densitometry. Four minor high moleucular weight bands and six medium to low molecular weight bands were detected in the arterial extracts. Band intensity stain patterns of normal intima are easily distinguished from normal media. Extracts of minor lesions resemble normal media; higher grade lesions demonstrate increased amounts of characteristic initmal bands. The major medial band is also seen on gels of thrombus extracts. Both of the bands most characteristic of atherosclerotic lesions stain for carbohydrate. Isolation and characterization of these (glyco)proteins will provide material for binding studies. Quantitation of characteristic lesion proteins may provide insights into the proliferative phase of this disease.
Atherosclerosis 1978 Oct
PMID:Distinctive protein profiles obtained from extracts of normal and atherosclerotic human aorta. 72 34

Interactions among growth factors, cells, and extracellular matrix are critical to the regulation of directed cell migration and proliferation associated with development, wound healing, and pathologic processes. Here we report the association of PDGF-AB and -BB, but not PDGF-AA, with the extracellular glycoprotein SPARC. Complexes of SPARC and 125I-labeled PDGF-BB or -AB were specifically immunoprecipitated by anti-SPARC immunoglobulins. 125I-PDGF-BB and -AB also bound specifically to SPARC that was immobilized on microtiter wells or bound to nitrocellulose after transfer from SDS/polyacrylamide gels. The binding of PDGF-BB to SPARC was pH-dependent; significant binding was detectable only above pH 6.6. The interaction of SPARC with specific dimeric forms of PDGF affected the activity of this mitogen. SPARC inhibited the binding of PDGF-BB and PDGF-AB, but not PDGF-AA, to human dermal fibroblasts in a dose-dependent manner. The expression of SPARC and PDGF was minimal in most normal adult tissues but was increased after injury. Enhanced expression of both PDGF-B chain and SPARC was seen in advanced lesions of atherosclerosis. We suggest that the coordinate expression of SPARC and PDGF-B-containing dimers following vascular injury may regulate the activity of specific dimeric forms of PDGF in vivo.
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PMID:The extracellular glycoprotein SPARC interacts with platelet-derived growth factor (PDGF)-AB and -BB and inhibits the binding of PDGF to its receptors. 131 Oct 92

Lp(a) is an LDL-like lipoprotein which contains an additional apolipoprotein called apo(a). Apo(a) exhibits a significant size polymorphism and its size is inversely correlated with plasma Lp(a) levels. We investigated the distribution of different apo(a) isoproteins in lipoprotein density fractions. Fasting plasma samples were subjected to non-equilibrium density gradient ultracentrifugation. After SDS-PAGE and anti-apo(a) immunoblotting, apo(a) concentrations in individual density fractions were evaluated by densitometry. In series I, analysis of selected density fractions from 35 coronary heart disease (CHD) patients demonstrated that although most of the apo(a) was present in the Lp(a) density range, apo(a) was consistently found in both the VLDL and IDL fractions as well. In series II, density fractions from 9 normolipidemic subjects with 6 different apo(a) isoproteins were evaluated. A strong association between the size of the apo(a) isoprotein and the density of the associated Lp(a) particle was established (r = 0.976, P less than 0.001). Lp(a) densities ranged from 1.057 g/ml for the B isoprotein to 1.09 g/ml for the S5 isoprotein. Overall, 75% of the total apo(a) was detected in the Lp(a) density range (d = 1.05-1.12 g/ml), with 9% and 10% in the LDL (d = 1.019-1.05 g/ml) and HDL (d = 1.12-1.21 g/ml) fractions, respectively. VLDL contained an average of 4% of the total apo(a) in fasting normolipidemic plasma. Two hypertriglyceridemic subjects had substantially greater amounts of apo(a) in the fasting triglyceride-rich fraction. The results of this study indicate that the size of the apo(a) isoprotein strongly influences the density of its associated Lp(a) particle and that apo(a) is consistently found in the triglyceride-rich lipoproteins of fasting plasma.
Atherosclerosis 1992 Jun
PMID:Correlation of apolipoprotein(a) isoproteins with Lp(a) density and distribution in fasting plasma. 138 58

A previous study has shown that complement component C3 binds to recombinant apolipoprotein(a) (r-apo(a)). In the present report we have investigated the interactions between lipoprotein(a) (Lp(a)), r-apo(a) and C3 in relation to complement activation and degradation. Neither Lp(a) nor r-apo(a) affected complement activation as indicated by sheep and rabbit red blood cell hemolytic assays, and by assessment of the amount of C3a generated in zymosan-activated human serum in the presence or absence of Lp(a). Crossed immunoelectrophoretic analyses indicated that Lp(a) retarded the migration of iC3b in complement-activated serum but had no effects on C3, C3b, C3c or C3dg. Recombinant apo(a) exhibited the same properties as intact Lp(a) indicating that it is the apo(a) portion of Lp(a) that mediates this effect and not the lipid moiety. Low density lipoprotein had no effect on the migration of C3 cleavage fragments. Treatment of Lp(a) or apo(a) with neuraminidase abolished their capacity to alter iC3b migration. SDS-PAGE immunoblotting analysis of C3 activation fragments generated in the presence of Lp(a) demonstrated the usual physiologic C3 cleavage fragments. Rocket intermediate gel immunoelectrophoresis of complement-activated serum demonstrated that Lp(a) did not hinder or accelerate the generation of C3c and C3dg breakdown fragments of iC3b. The results indicate that the apo(a) moiety of Lp(a) alters the migration of iC3b in an electric field but does not affect complement activation or degradation of activated C3. The sialic acid residues on apo(a) are necessary for the apo(a)-iC3b interaction.
Atherosclerosis 1992 Apr
PMID:The apolipoprotein(a) moiety of lipoprotein(a) interacts with the complement activation fragment iC3b but does not functionally affect C3 activation or degradation. 153 27

The present study was designed to determine whether normolipidemic male squirrel monkeys (Saimiri sciureus) exhibit low density lipoprotein (LDL) heterogeneity similar to that observed in humans and if present, whether LDL subfractions are altered by consumption of low vs. high dose ethanol (EtOH). Primates were divided into three groups designated control, low, and high EtOH and fed isocaloric liquid diets containing 0%, 12% and 24% of calories as EtOH, respectively, for 6 months. The 12% EtOH caloric level resulted in a modest, non-significant increase in high density lipoprotein (HDL) cholesterol and no change in LDL cholesterol or plasma apolipoprotein B (apo B), while the 24% dose produced significant elevations in plasma, LDL and HDL cholesterol and apo B. Using a single-spin density gradient ultracentrifugation procedure developed for humans, three distinct LDL subclasses designated LDL1a (d = 1.031 g/ml), LDL1b (d = 1.038 g/ml) and LDL 2 (d = 1.046 g/ml) were isolated from all three treatment groups. Monkey LDL subfractions were nearly identical to very light, light and heavy LDL subspecies isolated from human plasma in terms of their: (1) isopycnic densities following ultracentrifugation; (2) co-migration as single bands with beta-electrophoretic mobility in cellulose acetate and agarose electrophoretic gels; (3) size-dependent migration pattern in polyacrylamide gradient electrophoretic gels; (4) co-migration as a single band corresponding to apo B-100, following SDS polyacrylamide gel electrophoresis; and (5) decrease in total cholesterol/protein ratios with increasing LDL subclass density. Although there were no treatment differences in LDL particle size, within each treatment group, mean particle size for each LDL subfraction was significantly different from every other subfraction. Low (12%) dose alcohol had no effect on LDL subfraction mass relative to controls while high alcohol consumption resulted in marked increases in all lipid (except triglyceride) and protein of the larger, buoyant LDL subspecies (LDL1a and LDL1b). Moreover, the best correlation between plasma apo B and LDL subfraction total mass was demonstrated with LDL1b (r = 0.735). Since neither the lipid nor the protein concentration of the small, dense, purportedly more atherogenic, LDL2 changed with the 24% EtOH dose, we propose that the LDL subfraction alterations associated with high alcohol intake in squirrel monkeys (increased LDL1a, increased LDL1b, LDL2 no effect) may represent a compensatory response to modulate the overall atherogenic lipoprotein profile associated with elevations in total LDL cholesterol and plasma apolipoprotein B.
Atherosclerosis 1992 Jun
PMID:Alcohol dose and low density lipoprotein heterogeneity in squirrel monkeys (Saimiri sciureus). 163 75

Cleavage of the complement C3 protein is essential for complement activation. Saline extracts of human atherosclerotic lesions were examined by various techniques for the presence of C3 cleavage fragments. Crossed intermediate gel immunoelectrophoresis revealed that native C3 was the predominate C3 protein in extracts and that the C3dg fragment was also detected. SDS-PAGE/Western blot analyses of lesion extracts employing monoclonal antibodies directed at C3c and C3dg fragment determinants demonstrated molecular weight bands corresponding to the known molecular weights of all the physiologic C3 cleavage fragments, except C3b which is known to have a short half-life. After C3, the two most common fragments observed were C3c and C3dg. No bands other than those corresponding to known C3 cleavage fragments were observed and control antibody stains were always negative. In some blots bands with a greater molecular mass than C3 were evident, indicating that some of the C3 in lesions may be covalently bound to an activator. We have previously identified a large (100-500 nm) nonapoprotein containing lipid particle (LCA) as a major complement activating structure in human atherosclerotic lesions. Fractionation of lesion extracts by molecular sieve chromatography and sucrose density gradient centrifugation failed to reveal a concordance between LCA and C3 antigens. The results indicate that complement activation, i.e. C3 convertase formation, takes place in human atherosclerotic lesions and that activated C3 is degraded according to normal complement regulatory mechanisms.
Atherosclerosis 1991 Nov
PMID:Analysis of complement C3 activation products in human atherosclerotic lesions. 181 51

In this study, we performed oxidative modification of high density lipoprotein (HDL) in vitro. The amount of lipid peroxide increased when either HDL2 or HDL3 was incubated with phosphate-buffered saline containing 5 microM CuSO4 for 24 h at 37 degrees C, indicating that both fractions of HDL were oxidatively modified. This modification resulted in denaturation of apolipoprotein AI on SDS/PAGE and increased the negative charge on agarose gel electrophoresis. When incubated with macrophage-derived foam cells, native HDL caused a marked efflux of cholesterol from them, leading to a decrease in the amount of cholesteryl ester in the cells. However, oxidized HDL showed a lessened effect on the decrease of cholesteryl ester in foam cells. These data suggest that oxidative modification of HDL may stimulate development of atherosclerosis by limiting efflux of cholesterol from foam cells.
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PMID:High density lipoprotein loses its effect to stimulate efflux of cholesterol from foam cells after oxidative modification. 186 74

The molecular genetic defect of a female patient with apolipoprotein A-I (apoA-I) deficiency and premature atherosclerosis was examined. Her parents were first cousins. Her plasma density fraction from 1.063 to 1.21 g/ml contained no apoA-I on SDS/PAGE and no measurable high density lipoprotein cholesterol. Southern blot hybridization showed no gross abnormality to be present in the patient's apoA-I gene and homozygosity for a haplotype of restriction fragment length polymorphisms in the apoA-I gene region. Sequencing after amplification by PCR revealed a codon 84 nonsense mutation (CAG----TAG, Gln----stop) of exon 4 and a codon 67 missense mutation (GCC----ACC, Ala----Thr) of exon 3 in the patient's apoA-I gene. The data from dot-blot hybridization with allele-specific oligonucleotide probes indicated that she was homozygous for the apoA-I gene with regard to the two mutations. The codon 37 missense mutation was also detected in the apoA-I gene of 6 out of 60 controls, who all had normal levels of apoA-I and high density lipoprotein cholesterol, suggesting that the missense mutation is polymorphic and not associated with apoA-I deficiency. These findings indicate that homozygosity for the apoA-I gene with codon 84 nonsense mutation causes the deficiency of apoA-I and of high density lipoprotein cholesterol in the patient.
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PMID:Apolipoprotein A-I deficiency due to a codon 84 nonsense mutation of the apolipoprotein A-I gene. 190 17

Elevated plasma lipoprotein (a) (LP(a] levels are an independent predictor of the development of premature atherosclerosis in humans. The LP(a) particle consists of two disulfide-linked proteins, apolipoprotein (APO) B and APO(a). The APO(a) is a highly glycosylated protein which carries the LP(a) antigen. Genetic polymorphism in the APO(a) molecule has been reported, and, depending on the sensitivity of the method used, 6-11 alleles at the APO(a) structural locus have been documented in the literature. In this investigation, we have used a high-resolution SDS-agarose electrophoresis method followed by immunoblotting to screen APO(a) polymorphism in 54 families with 130 offspring. This method identified a total of 23 different APO(a) isoforms, and their genetic basis was confirmed in families. In addition to the detectable products of 23 APO(a) alleles, the family data predict the existence of a "null" allele. Of the total 270 individuals tested, 209 (77.4%) revealed double-banded phenotypes and 61 (22.6%) revealed single-banded phenotypes. In the unrelated sample of 140 individuals, however, 114 (81.4%) and 26 (18.6%) had double- and single-banded phenotypes, respectively. When the segregation pattern of single-banded phenotypes in the unrelated sample was followed in families, only nine (6.4%) were found to be true homozygotes, and the remaining 17 (12.2%) were classified as heterozygotes for the null allele. Of the 276 possible phenotypes predicted for 23 alleles in a large population, we observed 115 (42%) phenotypes in our restricted sample. On the basis of our results from the family data, we hypothesize the existence of at least 24 alleles, including a null allele, at the APO(a) structural locus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expressed hypervariable polymorphism of apolipoprotein (a). 192 89


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