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)

The major plasma lipids, cholesterol and triglyceride, circulate in association with specific proteins as lipid-protein or lipoprotein complexes. The proteins direct and regulate the metabolism of these complexes in interacting with tissue enzymes and receptors. The metabolic fate of circulating triglyceride is governed by the activity of the enzyme lipoprotein lipase, situated in adipose tissue and skeletal muscle. Cellular demand for cholesterol, on the other hand, is met by activation of a specific receptor which mediates the delivery of sterol-rich lipoproteins to lysosomal degradation in liver and peripheral tissues. In order to prevent excess cholesterol accumulation at the periphery, there is a system of reverse cholesterol transport which involves assimilation and trapping of the sterol in the plasma lipoproteins through the action of the enzyme lecithin: cholesterol acyltransferase. Thereafter, the cholesterol is delivered to the liver, the only organ capable of excreting it in significant amounts. Disturbances in these processes may produce gross changes in the plasma lipid profile, clearly recognisable as hyperlipidaemia. However, it is becoming increasingly clear that a number of inherited traits can subtly perturb the lipoprotein spectrum and increase coronary risk even in subjects whose plasma lipoprotein profile would be considered normal.
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PMID:Lipoprotein metabolism: an overview. 159 Jun 43

We have identified the molecular basis for familial lipoprotein lipase (LPL) deficiency in two unrelated families with the syndrome of familial hyperchylomicronemia. All 10 exons of the LPL gene were amplified from the two probands' genomic DNA by polymerase chain reaction. In family 1 of French descent, direct sequencing of the amplification products revealed that the patient was heterozygous for two missense mutations, Gly188----Glu (in exon 5) and Asp250----Asn (in exon 6). In family 2 of Italian descent, sequencing of multiple amplification products cloned in plasmids indicated that the patient was a compound heterozygote harboring two mutations, Arg243----His and Asp250----Asn, both in exon 6. Studies using polymerase chain reaction, restriction enzyme digestion (the Gly188----Glu mutation disrupts an Ava II site, the Arg243----His mutation, a Hha I site, and the Asp250----Asn mutation, a Taq I site), and allele-specific oligonucleotide hybridization confirmed that the patients were indeed compound heterozygous for the respective mutations. LPL constructs carrying the three mutations were expressed individually in Cos cells. All three mutant LPLs were synthesized and secreted efficiently; one (Asp250----Asn) had minimal (approximately 5%) catalytic activity and the other two were totally inactive. The three mutations occurred in highly conserved regions of the LPL gene. The fact that the newly identified Asp250----Asn mutation produced an almost totally inactive LPL and the location of this residue with respect to the three-dimensional structure of the highly homologous human pancreatic lipase suggest that Asp250 may be involved in a charge interaction with an alpha-helix in the amino terminal region of LPL. The occurrence of this mutation in two unrelated families of different ancestries (French and Italian) indicates either two independent mutational events affecting unrelated individuals or a common shared ancestral allele. Screening for the Asp250----Asn mutation should be included in future genetic epidemiology studies on LPL deficiency and familial combined hyperlipidemia.
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PMID:A missense (Asp250----Asn) mutation in the lipoprotein lipase gene in two unrelated families with familial lipoprotein lipase deficiency. 161 66

Lipid metabolism was evaluated during management of phaeochromocytoma in a 41 year old non-obese post-menopausal women with familial combined hyperlipidaemia. The main effect of the excess catecholamine secretion on lipid metabolism was increased lipolytic activity, lower serum triglyceride and increased HDL cholesterol concentrations, compared with findings following removal of the tumour. Before removal of the tumour, the use of beta blockers alone led to marked deterioration of the hyperlipidaemic state, and combined alpha and beta blockade additionally led to a marked reduction in fat oxidation and lipoprotein lipase activity. Overactivity of the adrenergic system leads to changes in lipid metabolism in phaeochromocytoma. Treatment of the phaeochromocytoma may lead to worsening of hyperlipidaemia pre-existing in such individuals.
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PMID:Lipid and lipoprotein metabolism in familial combined hyperlipidaemia during treatment of sporadic phaeochromocytoma: a case study. 163 Sep 85

Many lipoprotein abnormalities are seen in the untreated, hyperglycemic diabetic patient. The non-insulin-dependent diabetic (NIDDM) patient with mild fasting hyperglycemia commonly has mild hypertriglyceridemia due to overproduction of TG-rich lipoproteins in the liver, associated with decreased high-density lipoprotein (HDL) cholesterol levels. The more hyperglycemic untreated NIDDM and insulin-dependent diabetic (IDDM) patient have mild to moderate hypertriglyceridemia due to decreased adipose tissue and muscle lipoprotein lipase, (LPL) activity. These patients also have decreased HDL cholesterol levels associated with defective LPL catabolism of TG-rich lipoproteins. Treatment of diabetes with oral sulfonylureas or insulin corrects most of the hypertriglyceridemia and some of the decrease in HDL cholesterol. The abnormality in adipose tissue LPL activity corrects slowly over several months of therapy. The treated IDDM patient often has normal lipoprotein levels. The treated NIDDM patient may continue to have mild hypertriglyceridemia, increased intermediate-density lipoprotein levels, small dense low-density lipoproteins (LDL) with increased apoprotein B, and decreased HDL cholesterol levels. The central, abdominal distribution of adipose tissue in IDDM is associated with insulin resistance, hypertension, and the above lipoprotein abnormalities. Improvement in glucose control, in the absence of weight gain, leads to lower triglyceride and higher HDL cholesterol levels. In addition, the diabetic patient is prone to develop other defects that, in themselves, lead to hyperlipidemia, such as proteinuria, hypothyroidism, and hypertension, treated with thiazide diuretics and beta-adrenergic-blocking agents. When a diabetic patient independently inherits a common familial form of hypertriglyceridemia, he might develop the severe hypertriglyceridemia of the chylomicronemia syndrome.
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PMID:Pathophysiology of hyperlipidemia in diabetes mellitus. 171 Jul 39

There is evidence that hypertensive patients frequently have other metabolic disorders, such as hyperlipidemia and diabetes mellitus. It is also known that the reduction in high blood pressure alone, disregarding the other cardiovascular risk factors, is unable to reduce mortality to the level of the general population. Moreover, the occurrence of metabolic side effects with some antihypertensive drugs deserves particular attention in the treatment of hypertension. Calcium antagonists seem to be devoid of untoward metabolic effects. In particular, several studies have shown that nitrendipine does not deteriorate glucose tolerance. We have evaluated the effects of nitrendipine on insulin response to i.v. glucose load: no change was observed after 2 months of treatment in both serum insulin levels and glucose percent removal rate in comparison to pretreatment values. No unfavorable change was detectable in the studies aimed at investigating the effects of nitrendipine on lipid metabolism parameters. We observed a 22% increase of the percent removal rate of a lipid emulsion (Intralipid) after nitrendipine (3.11 +/- 1.0 vs. 3.80 +/- 1.0%/min, p less than 0.03). This finding suggests a favorable effect of nitrendipine on triglyceride catabolism, possibly mediated by an interference with lipoprotein lipase activity. The metabolic neutrality of nitrendipine, therefore, leads to considering the usefulness of this drug in an antihypertensive treatment that should not disregard the global risk profile.
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PMID:Metabolic neutrality in nitrendipine therapy. 172 52

Previously, we reported a case with type I hyperlipidemia due to a lipid interface recognition deficiency in lipoprotein lipase (LPL) (1). The LPL from postheparin plasma of this patient did not hydrolyze TritonX-100-triolein or very low density lipoprotein-triolein but did hydrolyze tributyrin and LysoPC-triolein substrates. Sequence analysis of the probands DNA revealed a heterozygous nucleotide change: a C----G transversion at position of 1595, resulting in changing the codon for Ser447 to a stop codon. Expression studies of this mutant LPLcDNA in Cos-1 cells produced and secreted considerable amounts of LPL mass in the culture media. The mutated LPL hydrolyzed much less TritonX-100-triolein than wild type LPL, whereas hydrolysis of tributyrin and LysoPC--triolein was the same with both the mutant and wild type LPL. These results suggest that this mutation might be responsible for the property of the LPL with a defect in lipid interface recognition in the type I patient we reported.
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PMID:A heterozygous mutation (the codon for Ser447----a stop codon) in lipoprotein lipase contributes to a defect in lipid interface recognition in a case with type I hyperlipidemia. 173 1

The patterns of hyperlipidemia in renal transplant recipients (RTRs) are more variable than in the uremic state, showing increases in both very low-density lipoprotein (VLDL) and low density lipoprotein (LDL). This has been attributed, at least in part, to immunosuppressive therapy, especially to treatment with corticosteroids. Postheparin lipolytic activity (PHLA) was determined in 28 RTRs. Sixteen patients presenting with hyperlipidemia comprised group A, who were aged 49.8 +/- 13.5 years, and had a cholesterol of 8.24 +/- 1.86 mmol/liter, triglycerides of 6.02 +/- 3.33 mmol/liter. Twelve patients presenting cholesterol and triglyceride values within the normal range were in group B, and were aged 48.6 +/- 13.3 years. All RTRs received cyclosporin A (CsA) twice daily orally, which were divided in two equal doses and adjusted to provide CsA blood trough levels (RIA) in a range of 250 to 350 ng/ml. Twenty-one RTRs were additionally treated by alternate-day corticosteroids, whereas seven patients had CsA on their sole immunosuppressive agent. PHLA (mumol free fatty acids/ml/hr, given 10 and 20 min after 100 U/heparin kg body wt intravenously) was commonly reduced in RTRs (group A at 10/20 min: 5.6 +/- 1.1/5.26 +/- 1.2; group B: 8.26 +/- 2.91/8.38 +/- 3.44) as compared to the values obtained in healthy controls (15.3 +/- 2.9/17.2 +/- 5.0). This was mainly due to a reduction of the activity of the hepatic triglyceride lipase, and to a minor extent to a reduced activity of peripheral lipoprotein lipase. There was no statistically significant difference of PHLA in RTRs with or without corticosteroid treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Decreased postheparin lipolytic activity in renal transplant recipients with cyclosporin A. 174 23

Dyslipidemia of chronic renal failure is of multifactorial origin. Decreased activity of lipoprotein lipase and hepatic triglyceride lipase, peripheral insulin resistance, hyperparathyroidism and L-carnitine deficiency are the contributing factors. This results in a disturbed catabolism of chylomicron, accumulation of very-low-density (VLDL) and intermediate-density (IDL) lipoproteins as well as incompletely cleared remnant particles, whereas low-density lipoprotein (LDL) levels are diminished. There is current debate as to whether cardiovascular disease is accelerated and whether hyperlipidemia should specifically be treated. In addition, there have been few means of influencing these metabolic alterations. Drug incompatibility and consequently side effects render treatment difficult. The drugs that have been most tested for lipid lowering in chronic renal failure are the fibric acids. By their mode of action, they are the logical choice. Dose reduction overcomes major side effects such as myopathy and rhabdomyolysis. The second generation of fibric acid derivatives (gemfibrozil and beclobrate) show several advantages over formerly used derivatives. Treatment with lovastatin and simvastatin appears to be safe and is recommended in a minority of patients with predominantly elevations of LDL. HMG-CoA reductase inhibitors also lower remnant particles effectively in hemodialysis (HD) patients. L-Carnitine and low-molecular-weight heparin have been shown to influence VLDL rich in triglycerides in a subset of patients on HD. In posttransplant hyperlipidemia, diet remains the first course of action in all patients. When this approach fails, the new lipid-lowering agents, especially fibric acids, appear to be safe in short-term studies in azathioprine- and ciclosporin-treated patients. Lovastatin has been shown to be safe in stable renal transplant patients. Its toxicity seems to depend mainly on high ciclosporin whole blood through or plasma levels.
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PMID:Hyperlipoproteinemia in chronic renal failure: pathophysiological and therapeutic aspects. 186 98

Nicotinic acid is a water-soluble B-complex vitamin that has been shown, in high doses, to lower total plasma cholesterol (C), LDL-C, and VLDL-triglycerides (Tg), while raising HDL-C in patients with type II, III, IV, and V hyperlipoproteinemia. Its exact mechanism of action is not known, but it appears to lower the production of VLDL in the liver while activating lipoprotein lipase. The drug may also influence the metabolism of HDL-C. The drug is a second or third choice for isolated hypercholesterolemia because of a high incidence of side effects. However, it has a therapeutic advantage as a monotherapy when reduction of both LDL-C and triglycerides are needed in patients with severe combined hyperlipidemia. The drug can be used in combination with other cholesterol-lowering agents to maximize lipid-lowering activity. Nicotinic acid has been associated with a reduced risk of cardiovascular morbidity in clinical trials.
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PMID:Nicotinic acid for the treatment of hyperlipoproteinemia. 189 60

We showed previously that net secretory output of apolipoprotein B (apo B) from cultured human hepatoma cells (HepG2) is regulated by rapid reuptake of nascent lipoproteins before they have diffused away from the vicinity of the cells. We now sought to determine if the nascent lipoproteins could be remodeled to enhance or impede reuptake. We found that lipoprotein lipase (LpL), an enzyme that hydrolyzes lipoprotein triglyceride, reduced HepG2 output of apo B to one-quarter to one-half of control. The reduction was apparent during co-incubations as short as 2 h and as long as 24 h. Heparin, which blocks receptor-mediated binding of lipoproteins, abolished the effect of LpL on apo B output, without causing enzyme inhibition. To assess uptake directly, we prepared labeled nascent lipoproteins. LpL tripled the cellular uptake of labeled nascent lipoproteins, from 15.2% +/- 0.7% to 48.7% +/- 0.3% of the total applied to the cells. Cellular uptake of 125I-labeled anti-LDL receptor IgG was unaffected by LpL; thus, LpL enhanced reuptake by altering lipoproteins, not receptors. Because LpL is present in the space of Disse in the liver, we conclude that LpL may act on newly secreted lipoproteins to enhance reuptake in vivo. LpL deficiency would reduce local reuptake of apo B, which would appear as overproduction, thereby providing a mechanistic link between partial LpL deficiency and familial combined hyperlipidemia.
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PMID:Lipoprotein lipase modulates net secretory output of apolipoprotein B in vitro. A possible pathophysiologic explanation for familial combined hyperlipidemia. 191 80


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