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)

Regucalcin plays an important role as a regulatory protein in intracellular signaling pathway in many cells. Regucalcin transgenic (TG) rats have been shown to induce a remarkable increase in serum triglyceride and HDL-cholesterol concentrations at the age of 36 weeks (35). Furthermore, this was investigated in regucalcin TG rats with increasing age (14, 25, 36 or 50 weeks). Serum triglyceride or HDL-cholesterol concentration was markedly increased in regucalcin TG male and female rats at 14, 25, 36 or 50 weeks of age. Serum-free fatty acid concentration was significantly elevated in regucalcin TG male and female rats at 25, 36 or 50 weeks. In the TG female rats, a significant increase in serum free fatty acid concentration was also observed at 14 weeks of age, while it was not seen in the TG male rats. Serum-free cholesterol concentration was significantly increased in regucalcin TG female rats at 14, 25, 36 or 50 weeks. Such an increase was not induced in the TG male rats. Moreover, serum calcium concentration was significantly raised in regucalcin TG male and female rats at 50 weeks of age. Also, serum albumin concentration was significantly elevated in regucalcin TG female rats at 25, 36, or 50 weeks of age. Such an increase was not observed in the TG male rats. Serum zinc, glucose or urea nitrogen concentration was not significantly altered in TG male and female rats. This study demonstrates that hyperlipidemia is uniquely induced in regucalcin TG rats with increasing age.
Int J Mol Med 2004 Oct
PMID:Hyperlipidemia is induced in regucalcin transgenic rats with increasing age. 1537 96

Regucalcin was discovered in 1978 as a Ca(2+)-binding protein that does not contain EF-hand motif of Ca(2+)-binding domain. The name regucalcin was proposed for this Ca2(2+)binding protein, which can regulate liver cell functions related to Ca(2+). The regucalcin gene is localized on chromosome X, and the organization of the regucalcin gene consists of seven exons and six introns. AP-1 and NFI-A1 can bind to the promoter region of the rat regucalcin gene to mediate the Ca(2+) response for transcriptional activation. Regucalcin plays a pivotal role in maintaining intracellular Ca(2+) homeostasis due to activating Ca(2+) pump enzymes in the plasma membrane (basolateral membrane), microsomes (endoplasmic reticulum) and mitochondria of many cell types. Regucalcin has a suppressive effect on Ca(2+) signaling from the cytoplasm to the nucleus in the proliferative cells. Also, regucalcin has been demonstrated to transport to nucleus, and it can inhibit nuclear protein kinase, protein phosphatase, and deoxyribonucleic acid (DNA) and ribonucleic acid (RNA) synthesis. Regucalcin can control enhancement of cell proliferation due to hormonal stimulation. Moreover, overexpression of regucalcin suppresses cell death and apoptosis in the cloned rat hepatoma cells induced by various signaling factors. Regucalcin plays a multifunctional role in the regulation of cellular function in liver, kidney cortex, heart and brain. Moreover, regucalcin-overexpressing rat has been shown to induce bone loss and hyperlipidemia with increasing age, indicating a pathophysiologic role. Regucalcin transgenic rat may be useful as an animal model in osteoporosis and hyperlipidemia. Thus, regucalcin plays a pivotal role in maintaining cell homeostasis and function. Regucalcin gene expression-related diseases may be found in human.
Int J Mol Med 2005 Mar
PMID:Role of regucalcin in maintaining cell homeostasis and function (review). 1570 26

We analyzed lipids in liver diseases by agarose gel electrophoresis, and differential staining and simultaneous analysis of the cholesterol (Chol) and triglyceride (TG) fractions. Liver diseases were classified into chronic hepatitis (CH), liver cirrhosis (LC), hepatocellular carcinoma (HCC), and metastatic liver cancer, and each fraction was compared among these diseases. Atypical patterns that were unclassifiable according to the WHO classification of hyperlipidemia phenotypes were classified, and their clinical importance was evaluated. With progression of the pathologic conditions of CH, LC, and HCC, the T-Chol level, each Chol fraction, and the TG fraction decreased while the LDL-TG fraction increased. Metastatic liver cancer showed a lower HDL-fraction level but higher levels of the other parameters than HCC. When the subjects were classified into survivors and patients who died, the HDL fraction level in HCC and metastatic liver cancer, and the LDL level in LC and metastatic liver cancer differed between survivors and patients who died. Phenotypes of hyperlipidemia also differed among diseases, and atypical patterns were frequently observed in patients who died. There were 6 atypical patterns, of which 4 (slow alpha HDL, abnormal LDL, Lp-X, and Lp-Y) were associated with liver diseases. Slow alpha HDL appeared during slight bile stagnation and was accompanied by increases in the apo E level and the HDL particle size. Abnormal LDL appeared with severe liver dysfunction; a TG peak appeared at the position of LDL, and the HDL and VLDL fractions were negligible. Lp-X was a Chol-rich band, occurring on the cathode side of LDL in the presence of marked bile stagnation such as that in obstructive jaundice, and was accompanied by appearance of abnormal LDL. Lp-Y was similar to Lp-X in terms of mobility and associated diseases but contained Chol and TG. Abnormal LDL, Lp-X, and Lp-Y were often observed in patients with poor outcomes. Lipid analysis in liver diseases by this method showed results reflecting the pathologic conditions and may be clinically useful.
Int J Mol Med 2005 Apr
PMID:Clinical significance of abnormal lipoprotein patterns in liver diseases. 1575 28

Systemic aldosterone plays an important role in the development of the microvascular disease and glomerular damage of the kidney in patients with diabetes mellitus and hyperlipidemia. Here, we investigated the possibility of local production of aldosterone in the kidney, using human primary glomerular mesangial cells. These cells produced both pregnenolone and aldosterone measured by specific radioimmunoassay and/or gas chromatography/mass spectrometry (GC/MS) methods. The production of both steroids was significantly stimulated by treatment with LDL, while angiotensin II had a synergistic effect. Adrenocorticotropic hormone (ACTH) and (Bu)2cAMP, on the other hand, failed to stimulate aldosterone production by these cells, suggesting that the local production of this steroid by mesangial cells is regulated differently from that of adrenal zona glomerulosa cells. Mesangial cells expressed the mRNA of the LDL receptor and steroidogenic enzymes, such as P450scc, 3beta-hydroxysteroid dehydrogenase (3beta-HSD), 21-hydroxylase and CYP11B2. Mesangial cells also expressed mRNA of the mineralocorticoid receptor (MR), and LDL stimulated its abundance by three-fold, while spironolactone, a completive antagonist of aldosterone, completely abolished this LDL effect. Since MR is a known mineralocorticoid-responsive gene as well as an intracellular receptor molecule for this steroid, these results suggest that locally produced aldosterone is biologically active, stimulating the transcription rates of the mineralocorticoid-responsive genes by activating the MR in mesangial cells. These pieces of evidence indicate that human mesangial cells are an aldosterone-producing tissue in which LDL plays a major regulatory role. Therefore, human renal mesangial endocrine system may contribute to local aldosterone concentrations and effects in the renal glomerulus independently of the systemic renin--angiotensin--aldosterone system and may participate in the development and progression of glomerular damage in several pathologic conditions.
J Steroid Biochem Mol Biol 2005 Aug
PMID:Human renal mesangial cells produce aldosterone in response to low-density lipoprotein (LDL). 1599 78

Recently, adipose triglyceride lipase (ATGL, also called desnutrin and calcium-independent phospholipase A2 [iPLA(2)] zeta) was isolated as a novel adipose-expressed triglyceride lipase which is downregulated in obesity and may contribute to obesity-associated metabolic disorders such as hyperlipidemia and insulin resistance. To clarify expression and regulation of this fat-derived lipase, ATGL mRNA was measured in 3T3-L1 adipocytes by quantitative real-time reverse transcription-polymerase chain reaction after treatment with isoproterenol, tumor necrosis factor (TNF) alpha, insulin, and growth hormone (GH) which have been shown to influence lipolysis and insulin sensitivity profoundly. Interestingly, treatment of adipocytes with 100 nM isoproterenol, 30 ng/ml TNF alpha, and 100 nM insulin for 16 h significantly decreased ATGL mRNA to 74%, 17%, and 49% of control levels, respectively. GH did not influence ATGL synthesis. The effect of isoproterenol, TNFalpha, and insulin on ATGL expression was time- and dose-dependent. Similarly, HSL mRNA was downregulated by the three hormones. Furthermore, signaling studies suggested that activation of Gs-protein-coupled pathways by forskolin and cholera toxin is sufficient to significantly downregulate ATGL mRNA. Moreover, p44/42 mitogen-activated protein kinase appears to partly mediate the negative effect of insulin but not TNFalpha on ATGL. Taken together, downregulation of ATGL by isoproterenol, TNFalpha, and insulin might contribute to dysregulated expression and function of this lipase in obesity, hyperlipidemia, and insulin resistance.
Mol Cell Endocrinol 2005 Aug 30
PMID:Isoproterenol, TNFalpha, and insulin downregulate adipose triglyceride lipase in 3T3-L1 adipocytes. 1600 85

Upstream transcription factor 1 (USF1), the first gene associated with familial combined hyperlipidemia (FCHL), regulates numerous genes of glucose and lipid metabolism. Phenotypic overlap between FCHL, type 2 diabetes and the metabolic syndrome makes this gene an intriguing candidate in the disease process of these traits as well. As no disease-associated mutations in the coding region of USF1 have been identified, we addressed the functional role of intronic single nucleotide polymorphisms (SNPs) which define the FCHL-risk alleles of USF1, and identified that a 20 bp DNA sequence, containing the critical intronic SNP, binds nuclear protein(s), representing a likely transcriptional regulatory element. This functional role is further supported by the differential expression of USF1-regulated genes in fat biopsy between individuals carrying different allelic variants of USF1. Importantly, apolipoprotein E (APOE) is the most downregulated gene in the risk individuals, linking the potential risk alleles of USF1 with the impaired APOE-dependent catabolism of atherogenic lipoprotein particles.
Hum Mol Genet 2005 Sep 01
PMID:USF1 and dyslipidemias: converging evidence for a functional intronic variant. 1607 49

Hypolipidemic drugs (HP drugs) are xenobiotics belonging to the peroxisome proliferator family which are used as pharmaceuticals in the treatment of human hyperlipidemia and hypercholesterolemia. They cause hepatocarcinogenesis in rodents by increasing cell proliferation. One hypothesis is that this hepatocarcinogenic effect is caused by induced oxidative stress resulting from the overproduction of reactive oxygen species (ROS) and from a decreasing antioxidant defense. In addition, ROS play a role in hepatocellular proliferation by activation of NF-kappaB and AP-1, leading to an increase in mitogenic cytokines such as tumor necrosis factor-alpha. No liver cancer incidence has been noted in individuals treated with HP drugs for brief periods of time. However, the observation that old rats and mice are more susceptible than young individuals to the hepatocarcinogenic effect caused by long term exposure to HP drugs raises the question of a potential health risk for the human population. In vitro, HP drugs cause an apoptogenic effect in human hepatocytes. This effect is related to a moderate antioxidant response, dysfunction of mitochondria caused by an overproduction of ROS and release of apoptogenic factors. Finally, the apoptogenic effect of HP drugs is observed in human hepatomas, suggesting a clinical interest of these agents in antitumoral activity.
Int J Mol Med 2005 Sep
PMID:Comparison of cytotoxicity induced by hypolipidemic drugs via reactive oxygen species in human and rodent liver cells. 1607 59

The endothelium plays an important role in maintaining vascular homeostasis by synthesizing and releasing several vasodilating substances, including vasodilator prostaglandins, nitric oxide (NO), and endothelium-derived hyperpolarizing factor (EDHF). Since the first report for the existence of EDHF, several substances/mechanisms have been proposed for the nature of EDHF, including epoxyeicosatrienoic acids (metabolites of arachidonic P450 epoxygenase pathway), K ions, and electrical communications through myoendothelial gap junctions. We have recently demonstrated that endothelium-derived hydrogen peroxide (H(2)O(2)) is an EDHF in mouse and human mesenteric arteries and in porcine coronary microvessels. For the synthesis of H(2)O(2) as an EDHF, endothelial Cu,Zn-superoxide dismutase plays an important role in mesenteric arteries of mice and humans. We also have demonstrated that EDHF-mediated responses are attenuated by several arteriosclerotic risk factors, including diabetes mellitus and hyperlipidemia and their combination in particular. Recent studies have indicated that endothelium-derived H(2)O(2) plays an important protective role in coronary autoregulation and myocardial ischemia/reperfusion injury in vivo. Indeed, our H(2)O(2)/EDHF theory demonstrates that endothelium-derived H(2)O(2), another reactive oxygen species in addition to NO, plays an important role as a redox signaling molecule to cause vasodilatation as well as cardioprotection. In this review, we summarize our knowledge on H(2)O(2)/EDHF regarding its identification, mechanisms of synthesis, and clinical implications.
J Mol Cell Cardiol 2005 Nov
PMID:Hydrogen peroxide is an endothelium-derived hyperpolarizing factor in animals and humans. 1612 55

The effect of Sargassum polycystum crude extract on lipid metabolism was examined against acetaminophen-induced (800 mg/kg body wt., intraperitoneally) hyperlipidemia during toxic hepatitis in experimental rats. The animals intoxicated with acetaminophen showed significant elevation in the levels of cholesterol, triglycerides and free fatty acid in both serum and liver tissue. The levels of tissue total lipids and serum LDL-cholesterol were also elevated with depleted levels of serum HDL-cholesterol and tissue phospholipid. The acetaminophen-induced animals showed significant alterations in the activities of lipid metabolizing enzymes serum lecithin cholesterol acyl transferase (LCAT) and hepatic triglyceride lipase (HTGL). The levels of liver tissue fatty acids (saturated, mono and polyunsaturated) such as palmitic acid, stearic acid, oleic acid, linoleic acid, arachidonic acid and linolenic acid monitored by gas chromatography were considerably altered in acetaminophen intoxicated animals when compared with control animals. The prior oral administration of Sargassum polycystum (200 mg/kg body wt./day for a period of 15 days) crude extract showed considerable prevention in the severe disturbances of lipid profile and metabolizing enzymes triggered by acetaminophen during hepatic injury. Liver histology also showed convincing supportive evidence regarding their protective nature against fatty changes induced during acetaminophen intoxication. Thus the present study indicates that the protective nature of Sargassum polycystum extract may be due to the presence of active compounds possessing antilipemic property against acetaminophen challenge.
Mol Cell Biochem 2005 Aug
PMID:Effect of Sargassum polycystum (Phaeophyceae)-sulphated polysaccharide extract against acetaminophen-induced hyperlipidemia during toxic hepatitis in experimental rats. 1613 89

As part of a randomised trial [Genetic Risk Assessment for Familial Hypercholesterolaemia (FH) Trial] of the psychological consequences of DNA-based and non-DNA-based diagnosis of FH, 338 probands with a clinical diagnosis of FH (46% with tendon xanthomas) were recruited. In the DNA-based testing arm (245 probands), using single-strand conformation polymorphism of all exons of the low-density lipoprotein receptor (LDLR) gene, 48 different pathogenic mutations were found in 62 probands (25%), while 7 (2.9%) of the patients had the R3500Q mutation in the apolipoprotein B (APOB) gene. Compared to those with no detected mutation, mean untreated cholesterol levels in those with the APOB mutation were similar, while in those with an LDLR mutation levels were significantly higher (None=9.15+/-1.62 vs LDLR=9.13+/-1.16 vs APOB=10.26+/-2.07 mmol/l p<0.001, respectively). Thirty seven percent of the detected mutations were in exon 3/4 of LDLR, and this group had significantly higher untreated cholesterol than those with other LDLR mutations (11.71+/-2.39 mmol/l vs 9.88+/-2.44 mmol/l, p=0.03), and more evidence of coronary disease compared to those with other LDLR or APOB mutations (36 vs 13% p=0.04). Of the probands with a detected mutation, 54 first-degree relatives were identified, of whom 27 (50%) had a mutation. Of these, 18 had untreated cholesterol above the 95th percentile for their age and gender, but there was overlap with levels in the non-carrier relatives such that 12% of subjects would have been incorrectly diagnosed on lipid levels alone. In the non-DNA-based testing arm (82 probands) only 19 of the 74 relatives identified had untreated cholesterol above the 95th percentile for their age and gender, which was significantly lower (p<0.0005) than the 50% expected for monogenic inheritance. These data confirm the genetic heterogeneity of LDLR mutations in the UK and the deleterious effect of mutations in exon 3 or 4 of LDLR on receptor function, lipids and severity of coronary heart disease. In patients with a clinical diagnosis of FH but no detectable mutation, there is weaker evidence for a monogenic cause compared with relatives of probands with LDLR mutations. This supports the usefulness of DNA testing to confirm diagnosis of FH for the treatment of hyperlipidaemia and for further cascade screening.
J Mol Med (Berl) 2006 Mar
PMID:Mutational analysis in UK patients with a clinical diagnosis of familial hypercholesterolaemia: relationship with plasma lipid traits, heart disease risk and utility in relative tracing. 1648 43


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