Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0020473 (hyperlipidemia)
15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Familial combined hyperlipidaemia is a common cause of coronary heart disease. Its aetiology is heterogeneous. The genetic and metabolic basis of the disorder has not yet been defined. This review discusses the putative role of adipose tissue in the pathogenesis of familial combined hyperlipidaemia. It is possible that mutations in genes regulating the turnover of lipids in fat cells are involved in the aetiology.
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PMID:Is familial combined hyperlipidaemia a genetic disorder of adipose tissue? 918 46

Familial combined hyperlipidemia is a common inherited disorder characterized by a hepatic overproduction of apo B particles and an elevated risk for the development of atherosclerosis. LDL particles are smaller and denser and are more prone to oxidation. The exact pathogenesis of familial combined hyperlipidemia is unclear at present. Treatment should aim to reduce the synthesis of atherogenic lipoproteins and to increase the clearance of triglyceride-rich lipoproteins.
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PMID:[Familial combined hyperlipidemia]. 943 74

Familial combined hyperlipidemia (FCHL) is a heterogeneous genetic disorder characterized by multiple lipoprotein phenotypes. The genetic defect is unknown, although linkage to the region of the apolipoprotein (apo) A-I-apoC-III-apo A-IV gene cluster on chromosome 11 has been suggested. The metabolic abnormality in many affected individuals is overproduction of apoB-containing lipoproteins causing elevated levels of plasma cholesterol, triglycerides, or both. Low levels of high-density lipoprotein (HDL) cholesterol and an abundance of dense low-density lipoprotein (LDL) particles are other features contributing to the high association of this disorder with premature coronary artery disease. Many affected individuals need drug therapy to lower their lipid levels. The hepatic 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors, or "statins," offer a potent therapeutic option in patients with FCHL. These drugs significantly decrease levels of total cholesterol, LDL cholesterol, and apoB, although their effects on HDL cholesterol and triglycerides are limited. The mechanisms by which statins exert their beneficial effects in patients with FCHL remain controversial. We studied 7 patients with FCHL and 5 genetically uncharacterized patients with mixed lipemia during treatment with pravastatin 20 mg/day. Metabolic parameters of very-low-density lipoprotein (VLDL)-apoB and LDL-apoB were studied using endogenous labeling with stable isotopes. In all patients pravastatin caused an increase in fractional catabolic rates of LDL-apoB without a significant effect on the production rates of apoB-containing lipoproteins. We cannot exclude the possibility that higher doses of statins may decrease VLDL and LDL production.
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PMID:Role of 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors ("statins") in familial combined hyperlipidemia. 952 13

More than half of the patients with angiographically confirmed premature coronary heart disease (CHD) have a familial lipoprotein disorder. Familial combined hyperlipidaemia (FCHL) represents the most common genetic dyslipidemia with a prevalence of 1.0-2.0%. FCHL is estimated to cause 10-20% of premature CHD and is characterized by elevated levels of cholesterol, triglycerides, or both. Attempts to characterize genes predisposing to FCHL have been hampered by its equivocal phenotype definition, unknown mode of inheritance and genetic heterogeneity. In order to minimize genetic heterogeneity, we chose 31 extended FCHL families from the isolated Finnish population that fulfilled strictly defined criteria for the phenotype status. We performed linkage analyses with markers from ten chromosomal regions that contain lipid-metabolism candidate genes. One marker, D1S104, adjacent to the apolipoprotein A-II (APOA2) gene on chromosome 1, revealed a lod score of Z = 3.50 assuming a dominant mode of inheritance. Multipoint analysis combining information from D1S104 and the neighbouring marker D1S1677 resulted in a lod score of 5.93. Physical positioning of known genes in the area (APOA2 and three selectin genes) outside the linked region suggests a novel locus for FCHL on 1q21-q23. A second paper in this issue (Castellani et al.) reports the identification of a mouse combined hyperlipidaemia locus in the syntenic region of the mouse genome, thus further implicating a gene in this region in the aetiology of FCHL.
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PMID:Linkage of familial combined hyperlipidaemia to chromosome 1q21-q23. 953 21

Familial combined hyperlipidaemia (FCHL) is a common, multifactorial disorder associated with elevated levels of plasma triglyceride, cholesterol, or both. A characteristic feature is increased secretion of very low density lipoproteins (VLDL) and apolipoprotein B (apoB). Although FCHL is the most common cause of premature coronary artery disease (CAD), accounting for over 10% of cases, its aetiology remains largely unknown. One powerful approach to the dissection of complex genetic traits involves the use of animal models. We have identified a mouse strain, HcB-19/Dem (HcB-19), which exhibits hypertriglyceridaemia, hypercholesterolaemia and elevated levels of plasma apoB. Like FCHL patients, HcB-19 mice also exhibit increased secretion of triglyceride-rich lipoproteins, and their hyperlipidaemia becomes progressively more severe with age. It is likely that the hyperlipidaemia results from a mutation of a novel gene that arose during development of strain HcB-19. We mapped the hyperlipidaemia gene (Hyplip1) to the distal portion of mouse chromosome 3. This region is syntenic to human chromosome 1q21-q23, which has recently been shown to harbour a gene associated with FCHL in families from a Finnish isolate.
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PMID:Mapping a gene for combined hyperlipidaemia in a mutant mouse strain. 953 22

Familial combined hyperlipidaemia is the most common inherited hyperlipidaemia and is found in up to 10% of patients with premature myocardial infarction. The genetic and metabolic bases of the disorder have not yet been defined. This review discusses the important advances in the past year in our understanding of the different metabolic pathways contributing to the pathogenesis of familial combined hyperlipidaemia.
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PMID:Defects of lipoprotein metabolism in familial combined hyperlipidaemia. 964

Familial combined hyperlipidemia (FCHL) is characterized by hyperlipidemia and insulin resistance, but intracellular defect in insulin action is unknown. Therefore, we investigated insulin action by applying the hyperinsulinemic euglycemic clamp technique with indirect calorimetry in 58 FCHL family members (28 with FCHL; 30 without dyslipidemia; aged 49+/-12 years; body mass index [BMI], 25. 2+/-4.0 kg/m2) and in 72 healthy control subjects (aged 54+/-6 years; BMI, 26.3+/-3.1 kg/m2). In the fasting state, FCHL patients had higher levels of total cholesterol, total triglycerides, and apolipoprotein B than control subjects (P<0.001 after adjustment for gender, age, and BMI). During the euglycemic clamp, FCHL patients had lower rates of glucose oxidation (15.93+/-3.55 versus 19.65+/-4. 60 micromol/kg/min; P=0.001) and higher rates of lipid oxidation (0. 15+/-0.13 versus 0.01+/-0.25 mg/kg/min; P=0.024), as well as higher levels of serum-free fatty acids (FFA) (0.24+/-0.17 versus 0.06+/-0. 06 mmol/L; P<0.001) compared with those of control subjects. Relatives without dyslipidemia differed similarly from control subjects with respect to rates of glucose and lipid oxidation and FFA suppression during the hyperinsulinemic clamp. In FCHL family members, during the euglycemic clamp FFAs correlated negatively with the rates of glucose oxidation (P<0.001) but not with the rates of glucose nonoxidation (P=0.408). In FCHL family members without dyslipidemia and in control subjects, FFAs during the clamp correlated positively with levels of total triglycerides (P<0.001) and very low density lipoprotein cholesterol (P=0.008). We conclude that in patients with FCHL, and also in their first-degree relatives, insulin's suppressive effect on FFA levels is impaired, which may precede dyslipidemia in FCHL.
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PMID:Impaired insulin-stimulated glucose oxidation and free fatty acid suppression in patients with familial combined hyperlipidemia: a precursor defect for dyslipidemia? 976 25

INSUFFICIENT PROGRESS: The treatment of hyperlipidemia leads to a reduced risk of coronary disease. This has been displayed notably since clinical trials have used statins. However, despite these treatments, a risk of coronary ischemia remains, which is not insignificant. There are several causes of this persistent risk which need to be analyzed. THE QUALITATIVE ASPECT OF LOW DENSITY LIPOPROTEINS: LDL are heterogeneous. This is displayed by a distribution of sizes varying from one subject to another. The predominance of small LDL is frequently found in coronary subjects detected during prospective or retrospective studies. The atherogenicity of small LDL can be explained by their physico-chemical characteristics. A remarkable fact is the predominance of small LDL in subjects with a mixed hyperlipidemia presenting a high risk of atherosclerosis. THE EFFECTS OF HYPOLIPIDEMIANTS: Statins greatly decrease LDL-cholesterol without changing LDL distribution according to size. Conversely, fibrates noticeably modify LDL distribution, reducing the percentage of small LDL. A PROPOSAL FOR THE TREATMENT OF SUBJECTS SUFFERING FROM MIXED HYPERLIPIDEMIA: If the concentration of LDL (reflected by LDL-cholesterol) and LDL distribution are two risk factors of atherosclerosis, hypolipidemic treatment should aim to act upon these two parameters, but no commercialized hypolipidemiant is effective enough as fas as they are both concerned. Therefore the combination of two hypolipidemiants, a statin and a fibrate, each having a predominant effect on one of the two factors, could be particularly effective in reducing coronary risk. This therapeutic association is effective on classic lipid parameters, does not entail more side effects than a monotherapy, and is not precluded by the RMO when there is a high vascular risk, which is often the case in mixed hyperlipidemia.
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PMID:[Is combined statin and fibrate therapy indicated in the management of mixed hyperlipidemia?]. 976 13

Familial combined hyperlipidemia (FCHL) is a complex genetic disorder of unknown etiology. Recently, 'modifier' genes of the FCHL phenotype, such as the apolipoprotein AI-CIII-AIV gene cluster and LPL, have been identified in several populations. A 'major' gene for FCHL has been identified in a Finnish isolate which maps to a region syntenic to murine chromosome 3 where a locus for combined hyperlipidemia has been identified. We review these and other recent studies which indicate that FCHL is genetically heterogeneous.
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PMID:Novel genes for familial combined hyperlipidemia. 1032 79

Familial combined hyperlipidemia (FCHL) is the most common genetic hyperlipidemia of unknown etiology. FCHL is characterized by a variable phenotype of both hypercholesterolemia and hypertriglyceridemia in proband and family members. While, the genetic basis for FCHL has not been characterized, recently, linkage analysis of Finnish FCHL family indicated major gene locus on chromosome 1q21-23. We review recent progress of genetics of FCHL.
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PMID:[Familial combined hyperlipidemia]. 1063 12


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