Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020538 (hypertension)
 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined the effects of the potassium channel opener KRN4884 (5-amino-N-[2-(2-chlorophenyl)ethyl]-N'-cyano-3-pyridinecarboxamidine ) on cardiovascular metabolic syndrome (i.e., syndrome X), in rats. High-fructose diet rats developed hypertension, hypertriglyceridemia, increased total cholesterol/HDL (high-density lipoprotein)-cholesterol ratio, and hyperinsulinemia, KRN4884 (0.3-3.0 mg/kg, twice a day for 14 days, p.o.) alleviated the risk factors in fructose-fed rats. Furthermore, fructose-fed rats exhibited impairment of glucose tolerance and excess insulin secretion when loaded with glucose orally. Treatment with KRN4884 (1.0 mg/kg, twice a day for 14 days, p.o.) improved the glucose intolerance and inhibited hypersecretion of insulin in the glucose-loaded, fructose-fed rats. In contrast, KRN4884 (0.3-1.0 mg/kg, twice a day for 10 days, p.o.) did not affect serum triglyceride, cholesterol, glucose, or insulin concentrations in normal rats. LPL (lipoprotein lipase) activities in skeletal muscle and adipose tissue, and HTGL (hepatic triglyceride lipase) activity in liver were measured after administration of KRN4884 or vehicle twice a day for 14 days in fructose-fed rats. KRN4884 caused a significant increase in LPL activity in muscle and tended to increase LPL activity in adipose tissue in fructose-fed rats. HTGL was decreased in fructose-fed rats as compared with normal controls and was unaffected by KRN4884. These findings suggested that KRN4884 enhances insulin sensitivity and LPL activity, which are related to glucose and lipid metabolism and may be useful for the treatment of syndrome X.
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PMID:Effects of the K+ channel opener KRN4884 on the cardiovascular metabolic syndrome model in rats. 1067 63

The direct effect of endogenous insulin on the atherosclerotic process has not been well understood. To clarify this question, we performed pancreas transplantation in Wistar Shionogi (WS) rats. Hyperinsulinemia was not related to coronary risk factors such as dyslipidemia and hypertension in transplanted rats. After 9 months of transplantation, the cholesterol ester contents of the aortas of transplanted WS rats were significantly higher than in the control rats. The effects of insulin resistance on coronary risk factors were examined in mice deficient in insulin substrate-1-deficient (IRS-1) mice, a non-obese animal model of insulin resistance. Blood pressure and plasma triglyceride levels were significantly higher in IRS-1-deficient mice than in normal mice. Impaired endothelium-dependent vascular relaxation was also observed in IRS-1-deficient mice. Furthermore, lipoprotein lipase activity was lower than in normal mice, suggesting impaired lipolysis was involved in the increased plasma triglyceride levels under insulin-resistant conditions.
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PMID:Animal models for hyperinsulinemia and insulin resistance. 1086 33

The clustering of cardiovascular risk factors such as abdominal obesity, hypertension, dyslipidaemia and glucose intolerance in the same persons has been called the metabolic or insulin-resistance syndrome. In 1998 WHO proposed a unifying definition for the syndrome and chose to call it the metabolic syndrome rather than the insulin-resistance syndrome. Although insulin resistance has been considered as a common denominator for the different components of the syndrome, there is still debate as to whether it is pathogenically involved in all of the different components of the syndrome. Clustering of the syndrome in families suggests a genetic component. It is plausible that so-called thrifty genes, which have ensured optimal storage of energy during periods of fasting, could contribute to the phenotype of the metabolic syndrome. Common variants in a number of candidate genes influencing fat and glucose metabolism can probably, together with environmental triggers, increase susceptibility to the syndrome. Among these, the genes for beta 3-adrenergic receptor, hormone-sensitive lipase, lipoprotein lipase, IRS-1, PC-1, skeletal muscle glycogen synthase, etc. appear to increase the risk of the metabolic syndrome. In addition, novel genes may be identified by genome-wide searches.
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PMID:Genetics of the metabolic syndrome. 1088 91

The Otsuka Long-Evans Tokushima fatty (OLETF) rat is an animal model of type 2 diabetes, characterized by abdominal obesity, insulin resistance, hypertension, and dyslipidemia. To elucidate the underlying molecular mechanism of obesity and its related complications, we used representational difference analysis and identified the genes more abundantly and specifically expressed in the visceral adipose tissue (VAT) of obese OLETF rats compared with the diabetes-resistant counterpart, that is, Long-Evans Tokushima Otsuka (LETO) rats. By Northern blot analysis, we confirmed the differential expression of 13 genes, including 3 novel genes. The upregulated expression of well-characterized lipid metabolic enzymes, such as lipoprotein lipase, phosphoenolpyruvate carboxykinase, and cholesterol esterase, were observed in VAT of OLETF rats. We demonstrated the differential expression of secreted proteins in VAT of OLETF rats, such as thrombospondin 1 and contrapsin-like protease inhibitor. In contrast to lipid enzymes, the secreted proteins revealed exclusive mRNA expression and they were not detected in VAT of LETO rats. Furthermore, the novel genes OL-16 and OL-64 were also expressed specifically in VAT of OLETF rats and were absent in that of LETO rats and other tissues, including subdermal and brown adipose tissues. The C-terminal partial amino acid sequence of OL-64 revealed that it showed approximately 40% homology with alpha(1)-antitrypsin and it seemed to be a new member of the serine proteinase inhibitor (SERPIN) gene family. VAT of OLEFT rats had a unique gene expression profile, and the accumulated VAT-specific known and novel secreted proteins may play a role(s) in the pathogenesis of obesity and its related complications.
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PMID:Identification of genes specifically expressed in the accumulated visceral adipose tissue of OLETF rats. 1101 3

A genetic linkage study of young-onset hypertension was performed on data from 59 nucleus families of Han Chinese residing in Taiwan. Thirty seven microsatellite markers near 18 hypertension candidate genes were genotyped. In a nonparametric identity-by-descent sibpair analysis, a positive linkage signal (defined as P<0.05) was found for four microsatellite markers, viz., D1S1612 (P=0.0162), D1S547 (P=0.0263), D8S 1145 (P= 0.0284), and D17S2193 (P=0.0256), which were located near genes for atrial natriuretic peptide (NPPA)/glucose transporter 5 (SLC2A5), angiotensinogen (AGT), lipoprotein lipase (LPL), and angiotensin-conveting enzyme (DCP1), respectively. Marker D5S1480 located near beta-2-adrenergic receptor (ADRB2) had a borderline P value (P=0.0785) for the positive signal. Comprehensive genotyping with further markers in these regions is underway to confirm whether these genes are linked to young-onset hypertension.
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PMID:Linkage analysis with candidate genes: the Taiwan young-onset hypertension genetic study. 1107 81

The lipoprotein lipase gene is highly polymorphic, and several common mutations have been associated with an increased atherogenic lipid profile. One of these, Asn291Ser, was also found to be associated with increased ischemic heart disease in women. More recently, this same mutation, present in approximately 5% of the population, was also associated with increased ischemic cerebrovascular disease risk. The magnitude of this increase is less than or equal to that attributed to other modifiable risk factors, such as hypertension, smoking, and hypercholesterolemia. A prudent diet and lifestyle should therefore attenuate the higher genetic predisposition to atherosclerosis observed in women carrying this mutation.
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PMID:Lipoprotein lipase genetic variation and gender-specific ischemic cerebrovascular disease risk. 1112 70

In preheparin serum, there exists lipoprotein lipase (LPL) mass with little activity. The clinical significance of this preheparin serum LPL mass (preheparin LPL mass) is unclear. We studied the levels of preheparin LPL mass in patients with coronary atherosclerosis, comparing the results with those in healthy men. We also evaluated the correlation between preheparin LPL mass and the severity of coronary atherosclerosis by comparing with other risk factors such as age, smoking, family history, hypertension, hyperuricemia, diabetes mellitus, total cholesterol, triglyceride, high density lipoprotein-cholesterol and body mass index. The subjects, 70 men presenting with symptoms of coronary artery disease, underwent coronary angiographic examination. Significant narrowness was defined as > or = 75%. Control group comprised 77 men who had annual health checks and showed no abnormal findings. Preheparin LPL mass in the stenosis group was lower than normal coronary group and also than the control group. Multivariate analysis showed that preheparin LPL mass had the highest t-value (-2.53) for the number of lesions among the risk factors listed above. These results suggest that low preheparin LPL mass may be deeply involved in the progression of coronary atherosclerosis.
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PMID:Preheparin serum lipoprotein lipase mass is negatively related to coronary atherosclerosis. 1116 28

It has been known for years that cardiovascular disease frequently precedes the development of type 2 diabetes, and that atherosclerosis might not be a complication of type 2 diabetes, but rather the consequence of common genetic and environmental factors (the common soil' hypothesis). The insulin resistance syndrome (IRS) is a cluster of closely associated and interdependent abnormalities, including insulin resistance, hyperinsulinaemia, android fat distribution, progressive glucose intolerance, dyslipidaemia (increased triglycerides, decreased HDL, increased small dense LDL), increased prothrombotic and antifibrinolytic factors, and hypertension. Many of these abnormalities are risk factors for type 2 diabetes, and most of them explain the predilection for atherosclerosis to occur in conjunction with IRS. Insulin resistance is a key feature of IRS, and has been suggested to be the common pathophysiological basis of atherosclerosis and type 2 diabetes. The term 'insulin resistance' denotes resistance to insulin-mediated glucose uptake into skeletal muscle, which can be measured by the glucose clamp technique. There are, however, other less understood sites of abnormal insulin action that may also be relevant in IRS. These include liver, adipose, and kidney tissue, and systems such as muscle perfusion, antilipolysis, lipoprotein lipase activity, and cation transport. The development of clinical cardiovascular end-points in a patient with insulin resistance is complex, as it includes the degree of the defect, its associated abnormalities, its consequences, and the ability to compensate for the underlying defect. It is therefore more appropriate to consider the different facets and risk factors of IRS in aggregate, rather than seeking 'independent' effects. Accordingly, treatment of insulin resistance per se has not yet been shown to reduce the incidence of cardiovascular complications. At the cellular level, excess insulin is involved in various elements of atherogenesis. It interacts with cytokines and growth factors in a cross talk among vascular wall cells and a variety of mediators that play a role in the establishment of atheroma. Excess insulin also plays an important role in concert with lipoproteins when they exhibit an abnormal pattern and become modified by oxidation and glycation. It is therefore currently hoped that the introduction of a new class of insulin-sensitizing agents, the thiazolidinediones, may attenuate these processes. The thiazolidinediones act through ligand activation of a nuclear transcription factor, the peroxisomal proliferator-activated receptor-gamma (PPARgamma). Although this receptor was initially linked to lipid and glucose metabolism, recent data suggest that PPARgamma is also involved in the differentiation of mononuclear phagocytes, their inflammatory reactions, and macrophage conversion to foam cells. Thus, PPARgamma ligands may also be important regulators of monocyte/ macrophage gene expression during atherogenesis.
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PMID:The relation between insulin resistance and cardiovascular complications of the insulin resistance syndrome. 1122 Feb 89

Angiotensin II (Ang II) activates cytosolic phospholipase A(2) (cPLA(2)) and phospholipase D (PLD) in rabbit vascular smooth muscle cells (VSMCs). Ang II also activates ras/mitogen-activated protein (MAP) kinase in VSMCs; this activation is mediated by 20-hydroxyeicosatetraenoic acid (HETE) and 12(S)-HETE, which are metabolites of arachidonic acid generated by cytochrome P450 4A and lipoxygenase, respectively, produced on activation of cPLA(2). The purpose of this study was to determine if Ang II-induced PLD activation in VSMCs is mediated through the ras/extracellular signal-regulating kinase (ERK) pathway by arachidonic acid metabolites that are generated consequent to cPLA(2) stimulation. Inhibitors of PLD (C(2) ceramide), phosphatidate phosphohydrolase (propranolol), and diacylglycerol lipase (RHC 80267) attenuated Ang II-induced arachidonic acid release. Ang II-induced PLD activation, as measured by [(3)H]phosphatidylethanol production, was inhibited by C(2) ceramide but not by propranolol or RHC 80267. Ang II-induced PLD activation was decreased by the inhibitor methyl arachidonylfluorophosphate (MAFP) and the antisense oligonucleotide of cPLA(2). Inhibitors of lipoxygenases (baicalein) and cytochrome P450 4A (ODYA) attenuated Ang II-induced PLD activation. 20-HETE and 12(S)-HETE increased PLD activity. Inhibitors of ras farnesyltransferase (FPT III and BMS-191563) and MAP kinase kinase (UO126) attenuated the increase in PLD activity elicited by 20-HETE and Ang II. PLD2 was the main isoform activated by Ang II in VSMCs. These data suggest that the CYP4A metabolite 20-HETE, which is generated from arachidonic acid after cPLA(2) activation by Ang II, stimulates the ras/MAP kinase pathway, which in turn activates PLD2 and releases further arachidonic acid for prostaglandin synthesis through the phosphatidate phosphohydrolase/diacylglycerol lipase pathway.
Hypertension 2001 Feb
PMID:20-Hydroxyeicosatetraenoic acid mediates angiotensin ii-induced phospholipase d activation in vascular smooth muscle cells. 1123 Mar 46

Genes contributing to common forms of hypertension are largely unknown. A number of studies in humans and in animal models have revealed associations between insulin resistance, dyslipidemia, and elevated hypertension. To identify genes contributing to blood pressure (BP) variation associated with insulin-resistant dyslipidemia, we conducted a genome-wide scan for BP in a set of 18 Dutch families exhibiting the common lipid disorder familial combined hyperlipidemia. Our results reveal a locus on chromosome 4 that exhibits a significant lod score of 3.9 with systolic BP. In addition, this locus also appears to influence plasma free fatty acid levels (lod=2.4). After adjustment for age and gender, the lod score for systolic BP increased to 4.6, whereas the lod score for free fatty acid levels did not change. The chromosome 4 locus contains an attractive candidate gene, alpha-adducin, which has been associated with altered BP in animal studies and in some human populations. However, we found no evidence for an association between 2 intragenic alpha-adducin polymorphisms and systolic BP in this sample. We also observed suggestive evidence for linkage (lod=1.8) of diastolic BP to the lipoprotein lipase gene locus on chromosome 8p, supporting a finding previously observed in a separate insulin-resistant population. In addition, we also obtained suggestive evidence for linkage of systolic BP (lod=2.4) and plasma apolipoprotein B levels (lod=2.0) to a locus on proximal chromosome 19p. In conclusion, our genome scan results support the existence of multiple genetic factors that can influence both BP and plasma lipid parameters.
Hypertension 2001 Oct
PMID:Genome scan for blood pressure in Dutch dyslipidemic families reveals linkage to a locus on chromosome 4p. 1164 Dec 85


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