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Query: UMLS:C0004153 (
atherosclerosis
)
77,401
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Plasma lipids and apolipoproteins were quantified in two kindreds of
hypobetalipoproteinemia
. All affected members were asymptomatic but showed a decrease of 75% in apolipoprotein B and of 69% in LDL-cholesterol. There were no major changes in apo A-I and A-II but all affected family members had reduced levels of apo C-II (by 58%) and C-III (by 59%) without significant decrease in apo C-I and no specific decrease of apo C-III1. Apolipoprotein E is decreased in SDS-PAGE. The plasma level and phenotype of Lp(a) are not affected by HBL, suggesting that a catabolic rather than a synthetic mechanism is responsible for the disease. As shown by density gradient ultracentrifugation, HDL2 particles that contain essentially apolipoprotein A-I, cholesterol and phospholipids represent in affected subjects the major part of HDL. Due to the net reduction of apolipoprotein B-containing particles (VLDL and LDL) as acceptors of lipids in HBL, there is an accumulation of large particles rich in cholesteryl esters.
Atherosclerosis
1990 Aug
PMID:Plasma lipids, lipoproteins and apolipoproteins in two kindreds of hypobetalipoproteinemia. 224 96
The polymorphic markers of the apolipoprotein B (apoB) gene include restriction fragment length polymorphisms (RFLPs) scattered along the length of the gene, an insertion/deletion (I/D) polymorphism at the 5' and variable numbers of tandem repeats (VNTRs) at the 3' untranslated ends. The Xbal and I/D polymorphisms which do not affect apoB structure, produce modest effects on fasting and postprandial lipids and on responsiveness to dietary lipids, but the effects are population, age and gender-dependent. Much larger effects on fasting lipid levels are produced by structural mutations of the apoB gene. The apoB 3500 mutation affecting the low density lipoprotein (LDL) receptor recognition region of apoB-100, is one of the causes of the autosomal codominant familial hypercholesterolemia phenotype, characterized by fasting LDL elevations and
atherosclerosis
. Neither fasting nor postprandial hypertriglyceridemia are consistently present. Some forms of familial
hypobetalipoproteinemia
(FHBL) are genetically linked to various truncation-producing mutations of the gene. To date approximately 30 deletion, insertion or non-sense mutations have been identified resulting in apoB truncations ranging in size from apoB-9 to apoB-89. FHBL segregates as an autosomal dominant trait. Heterozygotes have less than a 5th to 10th percentile levels while compound heterozygotes and true homozygotes have much less than 5th percentile levels of total and LDL cholesterol. Heterozygotes have no symptoms traceable to the gene defect. Alterations in the distributions of apoB truncations among the lipoproteins in plasma and in the metabolism of the lipoproteins containing apoB-truncations depend on the lengths of the truncations.
...
PMID:Genetic variation of apolipoprotein B can produce both low and high levels of apoB-containing lipoproteins in plasma. 758 99
It is well known that coronary heart disease (CHD) is multifactorial, with environmental and inherited risk factors both playing a role. Apolipoprotein B (apo B) is of major importance in lipoprotein metabolism and might play a central role in atherogenesis. The apo B gene is the obvious candidate gene to study the relations between lipid concentrations and CHD. Some rare mutations in the apo B gene affect plasma cholesterol levels, leading to either familial
hypobetalipoproteinemia
or familial defective apolipoprotein B100. Other frequent polymorphisms have little biological effect but, because of their high frequency, might contribute to the development of CHD in a given population. Many apo B gene polymorphisms are associated with variations in plasma lipid concentrations, including the response of plasma lipids to dietary intervention, and peripheral and coronary
atherosclerosis
. Age, body mass index and gender affect the degree and nature of the association between apo B genetic markers and normal lipid and lipoprotein levels. However, negative and contradictory results have also been reported. One likely explanation is differences between studies, including populations of different geographic origin, arbitrary definition of cases and controls and multiple criteria for CHD. Future work on the effect of the apo B locus on hyperlipidaemia and
atherosclerosis
must involve large numbers of patients belonging to carefully defined populations. Prospective studies using a combination of genetic markers in well-defined populations should lead to firm conclusions on the role of apo B in atherogenesis and coronary heart disease.
...
PMID:[Genetic variation in the apolipoprotein B gene]. 862 6
Abetalipoproteinemia (ABL) and homozygous
hypobetalipoproteinemia
(
HBL
) are inherited disorders which are classically characterized by progressive retinal and spinocerebellar disease, fat-soluble vitamin deficiency, and absence of apolipoprotein (apo) B from the plasma. Using immunoaffinity chromatography with an anti-apo B antiserum, we isolated apo B-containing lipoprotein (LpB) particles from the plasma of 4 ABL and 2
HBL
patients. The LpB particles were characterized and compared with low density lipoprotein (LDL) and LpB isolated from normal plasma. The ABL/
HBL
LpB particles were similar in size and charge to normal LpB particles but were relatively enriched in several other apolipoproteins. They contained alpha-tocopherol in a ratio to cholesterol that was proportionately much higher than the very low ratio of alpha-tocopherol to cholesterol in plasma. They bound saturably to fibroblasts and were internalized and degraded similarly to LDL. Hence, the molecular defects in ABL and
HBL
permit the secretion of a very small number of apo B-containing lipoproteins which may be important for transport of alpha-tocopherol to peripheral tissues.
Atherosclerosis
1995 Dec
PMID:Lipoproteins containing apolipoprotein B isolated from patients with abetalipoproteinemia and homozygous hypobetalipoproteinemia: identification and characterization. 877 Mar 13
For decades, research interest has focused on hypertriglyceridemia and hypercholesterolemia, because of their association with
atherosclerosis
. Recently, however, increasing attention has been paid to rare hypolipidemic states that can cause adverse consequences in young patients. Studies of genetic disorders of fat transport have afforded new insights into the mechanisms involved in intestinal lipid handling and lipoprotein metabolism. This article reviews briefly the current state of knowledge about inherited lipoprotein deficiencies, including abetalipoproteinemia,
hypobetalipoproteinemia
and chylomicron retention disease. These disorders share many common characteristics: they all cause fat malabsorption, low levels of circulating lipids and fat-soluble vitamins, failure to thrive in early childhood, ataxic neuropathy and visual impairment. However, their etiology is genetically different. Abetalipoproteinemia is caused by the absence of microsomal transfer protein, whereas
hypobetalipoproteinemia
is due to defects in the apolipoprotein B gene. The etiopathogenesis of chylomicron retention disease is as yet unexplained. Research on these rare, inherited fat disorders of absorption will continue to provide significant advances in our understanding of human physiology and may yield novel therapeutic approaches to
atherosclerosis
.
...
PMID:The genetic basis of primary disorders of intestinal fat transport. 888 69
Familial hypobetalipoproteinemia is an autosomal codominant trait that can be caused by mutations in the apo B gene. Here we report a novel apo B gene mutation causing
hypobetalipoproteinemia
, that is associated with the synthesis of a truncated apo B protein in a young healthy male subject and his mother. The mutation is an A deletion at position 6627 of the apo B cDNA leading to a truncated protein of 2166 amino acids (apo B-48.4). This truncated apo B was detected mainly in VLDL, LDL and in trace amounts in HDL, but not in the lipoprotein deficient plasma fraction. Affected family members present with elevated levels of HDL-cholesterol, mainly due to an increase in HDL2 particles. Postprandial triglycerides and retinyl esters in the d < 1.006 g/ml lipoprotein in the proband showed a normal response to an oral fat load compared to a group of eight matched healthy controls. In summary this novel mutation is associated with
hypobetalipoproteinemia
with a normal fat absorption as expected for a protein with a length similar to that of apo B-48.
Atherosclerosis
1998 Mar
PMID:Hypobetalipoproteinemia associated with apo B-48.4, a truncated protein only 14 amino acids longer than apo B-48. 956 44
Dyslipidemia is said to be present when lipid or lipoprotein levels lie within a range which is known from epidemiological studies to be associated with secondary complications, in particular
atherosclerosis
of the coronary arteries, or when a lipid or lipoprotein grossly deviates from the norm as in abetalipoproteinemia,
hypobetalipoproteinemia
or the HDL deficiency syndromes. In most cases, dyslipidemia is due not to a single genetic or environmental factor, but to a combination of the effects of several genes of small effect (polygenes) and environment. In other cases, however, dyslipidemia is caused by a mutation in a single gene of large effect. In such cases, the extent and nature of the phenotype depends primarily on the identity of the gene involved, but is also modulated to an important degree by the nature of the mutation and the genetic and environmental background against which this mutation occurs. In addition, many cases of hyperlipidemia are secondary to other disorders such as hypothyroidism or renal dysfunction. Such disorders may also unmask or exacerbate a genetic lipoprotein disorder. Examples of the latter are the unmasking of type III hyperlipidemia by diabetes mellitus or the exacerbation of familial hypercholesterolemia by hypothyroidism.
...
PMID:Lipoproteins and cardiovascular risk-from genetics to CHD prevention. 963 14
Hypobetalipoproteinemia
(HBLP) is characterized by plasma concentrations of apolipoprotein B (apoB) and low density lipoprotein cholesterol (LDL-C) below the fifth percentile. Some forms of HBLP have been shown to be due to truncated forms of apoB-100. A total of 3873 subjects participating in the Framingham Offspring Study had LDL-C levels measured every 4 to 5 years throughout a 25-year period. Seventy-five subjects were identified with persistent HBLP, defined as an LDL-C <70 mg/dL on at least 2 observations, for a prevalence of 1.9% in this population. Compared with subjects with LDL- C >/=70 mg/dL, subjects with HBLP had significantly lower mean levels of total cholesterol, LDL-C, triglyceride, and apoB; higher levels of high density lipoprotein cholesterol; and a higher prevalence of the E2/E3 genotype: 38.7% versus 10.9% (P<0.001). Men with HBLP had a larger mean LDL particle size than did men with an LDL- C >/=70 mg/dL. One individual had a truncated apoB as a cause of HBLP, for a prevalence of 0.03%. Medical causes of HBLP included 2 cases of Crohn's disease, 1 of hemochromatosis, and 1 of hepatitis. Three subjects with HBLP developed coronary heart disease, for an incidence of 4% compared with 5% in those with an LDL- C >/=70 mg/dL (P=NS). The incidence of cancer was 8% in those with HBLP compared with 4% in those with an LDL-C >/=70 mg/dL (P=0.21). In conclusion, a truncated apoB was a rare cause of HBLP, whereas the E2/E3 genotype was a much more common cause. A large prospective study is needed to evaluate the incidence of cancer and
atherosclerosis
in subjects with HBLP.
...
PMID:Frequency of ApoB and ApoE gene mutations as causes of hypobetalipoproteinemia in the framingham offspring population. 981 13
An elevated plasma apolipoprotein B (apoB) level is a strong predictor of
atherosclerosis
and coronary heart disease. Epidemiologic and family linkage studies have suggested a genetic basis for the wide variations of plasma apoB levels in the general population. Using a human apoB transgenic (HuBTg) mouse model, we have previously shown that hepatic apoB-100 secretion is a major determinant of the high and low plasma human apoB levels in HuBTg mice of the C57BL/6 (B6) and 129/Sv (129) strains, respectively. In the present article, we present the identification of two novel quantitative trait loci (QTL) as major regulators of plasma human apoB levels in the F(2) and N(2) (backcrossed) offspring (n = 572) derived from crosses between the B6 and 129 mouse strains. These loci were designated ApoB regulator genes (Abrg), because the gene products are likely to be involved in the regulation of plasma apoB levels either directly or indirectly. The first locus, designated Abrg1, was mapped to chromosome 6 in 8-week-old male and female mice with a combined logarithm of odds ratio (LOD) score of 14 at the D6Mit55 marker ( approximately 45.9 cM). Abrg1 contributed approximately 35% of the genetic variance. The second locus, designated Abrg2, was mapped to chromosome 4 with an LOD score of 8.6 in 8-week-old male mice but an LOD score of only 2.0 in 8-week-old female mice at the D4Mit27 marker ( approximately 35 cM). Abrg2 contributed approximately 26% of the genetic variance. Epistasis between Abrg1 and Abrg2 was detected and accounted for approximately 12% of the genetic variance. The combination of these two QTL has major effects (>70%) on the regulation of plasma human apoB levels in the tested population. In summary, we have identified two novel loci that have a major role in the regulation of plasma apoB levels and are likely to regulate the secretory pathway of apoB. The human orthologs for the Abrg loci are strong candidates for human disorders characterized by altered plasma apoB levels, such as FCHL and familial
hypobetalipoproteinemia
.
...
PMID:Two novel quantitative trait loci on mouse chromosomes 6 and 4 independently and synergistically regulate plasma apoB levels. 1135 92
We report the clinical phenotype in three kindreds with familial heterozygous
hypobetalipoproteinemia
(FHBL) carrying novel truncated apolipoprotein Bs (apoBs) of different sizes (apoB-8.15, apoB-33.4 and apoB-75.7). In D.A. kindred, we found three carriers of a C-deletion in exon 10 leading to the synthesis of apoB-8.15 not detectable in plasma. They showed steatorrhea and fatty liver. In N.L. kindred, the proband is heterozygous for a nonsense mutation in exon 26, leading to the formation of apoB-33.4. He had premature cerebrovascular disease and fatty liver; two apoB-33.4 carriers in this kindred showed only fatty liver. In B.E. kindred, the proband is heterozygous for a T-deletion in exon 26, which converts tyrosine at codon 3435 into a stop codon, resulting in apoB-75.7. The proband, a heavy alcohol drinker, had steatohepatitis, whereas his teetotaller daughter, an apoB-75.7 carrier, had no detectable fatty liver. This study suggests that: i) fatty liver invariably develops in FHBL carriers of short and medium-size truncated apoBs (< apoB-48), but its occurrence needs additional environmental factors in carriers of longer apoB forms; ii) intestinal lipid malabsorption develops only in carriers of short truncated apoBs, which are not secreted into the plasma; and iii) cerebrovascular disease due to premature
atherosclerosis
may occur even in FHBL subjects.
...
PMID:Phenotypic expression of familial hypobetalipoproteinemia in three kindreds with mutations of apolipoprotein B gene. 1159 Feb 10
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