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)

The metabolic syndrome is characterized by cluster-like occurrence of various risk-factors for vascular disease: overweight, hypertension, hyperlipidemia, hyperproteinuria. In the pathogenesis of this syndrome the peripheral resistance to insulin leading to hyperinsulinemia plays most likely a central role, as the development of individual components of the metabolic syndrome may causally be explained in this way. Various possible explanations exist for the development of insulin resistance: on the receptor level, as a result of changes in the capillary bed or in muscle fiber composition, or resulting from disturbed circulation of muscles. Clinical symptoms of hyperinsulinemia are hypertension, lipodystrophy, and type II diabetes. Patients with metabolic syndrome represent a group at high risk for arteriosclerotic vascular disease. Therapy aims primarily at reduction of hyperinsulinemia as the underlying factor. In particular non-medical intervention plays an important role (reduction of body weight, exercise). In drug therapy of hypertension only such antihypertensives which remain neutral to metabolism should be applied, i.e., ACE-inhibitors which even improve the metabolic condition.
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PMID:[ACE inhibitor in metabolic syndrome]. 785 77

Nuclear lamins A and C are encoded by LMNA and are present in terminally differentiated cells. Lamins participate in DNA replication, chromatin organization, arrangement of nuclear pores, nuclear growth, and anchorage of nuclear membranes. In several Canadian probands with partial lipodystrophy, since found to have a common ancestor, we identified a rare novel LMNA mutation, R482Q, that completely cosegregated with the partial lipodystrophy phenotype. We evaluated the relationship between quantitative metabolic phenotypes in both diabetic and nondiabetic carriers of LMNA R482Q and family controls, who were LMNA R482/R482 homozygotes. We found that when compared with LMNA R482/R482 homozygotes: (1) diabetic LMNA Q482/R482 heterozygotes had significantly higher glucose, glycosylated hemoglobin, triglycerides, insulin and C-peptide, and significantly lower HDL cholesterol; and (2) nondiabetic LMNA Q482/R482 heterozygotes had significantly higher triglycerides, insulin and C-peptide, and significantly lower HDL cholesterol. We also found that diabetic LMNA Q482/R482 heterozygotes were older and more likely to take antihypertensive medications. Thus, LMNA R482Q was associated with lipodystrophy, hyperinsulinemia, dyslipidemia, diabetes, and hypertension. The results indicate that perturbations in plasma lipids precede the plasma glucose abnormalities in LMNA Q482-associated hyperinsulinemia. Thus, rare mutations in a nuclear structural protein can be associated with markedly abnormal qualitative and quantitative metabolic phenotypes
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PMID:Association between nuclear lamin A/C R482Q mutation and partial lipodystrophy with hyperinsulinemia, dyslipidemia, hypertension, and diabetes. 1081 87

The common syndrome of insulin resistance is frequently seen in obese individuals, and is characterized by glucose intolerance, dyslipidemia, high blood pressure, and an increased risk of coronary heart disease. A rare genetic form of insulin resistance is Dunnigan-type familial partial lipodystrophy (FPLD; OMIM #151660), which is characterized by loss of subcutaneous fat from extremities, trunk, and gluteal region, and always by insulin resistance and hyperinsulinemia, often with hypertension, dyslipidemia, type-2 diabetes and early endpoints of atherosclerosis. FPLD was recently discovered to result from mutated LMNA (R482Q; OMIM #150330.0010), which is the gene encoding nuclear lamins A and C. Results from extended pedigrees indicate that dyslipidemia precedes the plasma glucose abnormalities in FPLD subjects with mutant LMNA, and that the hyperinsulinemia is present early in the course of the disease. Plasma leptin is also markedly reduced in subjects with FPLD due to mutant LMNA. Thus, rare mutations in a nuclear structural protein can be associated with markedly abnormal qualitative and quantitative phenotypes, indicating that a defect in the structure and function of the nuclear envelope can result in a phenotype that shares many aspects with the common syndrome of insulin resistance.
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PMID:Insulin resistance in human partial lipodystrophy. 1112 71

Dunnigan-type familial partial lipodystrophy (FPLD; OMIM 151660) is a rare monogenic form of insulin resistance characterized by loss of subcutaneous fat from the extremities, trunk, and gluteal region. FPLD recapitulates the main metabolic attributes of the insulin resistance syndrome, including central obesity, hyperinsulinemia, glucose intolerance and diabetes, dyslipidemia, and hypertension. Through the use of focused DNA sequencing of positional candidate genes on chromosome 1q21, we discovered that FPLD results from mutations in LMNA (R482Q; OMIM 150330.0010), which is the gene that encodes nuclear lamins A and C. By stratifying members of extended FPLD pedigrees according to LMNA genotype, we found that hyperinsulinemia is present early in the course of the disease and that dyslipidemia (characterized by high triglycerides and depressed HDL cholesterol) precedes the development of glucose abnormalities. Plasma leptin is also markedly reduced in subjects with FPLD due to mutant LMNA. The findings in FPLD indicate that defective structure of the nuclear envelope produces a phenotype of insulin resistance. The findings may have relevance for common insulin resistance and for drug-associated lipodystrophies, whose molecular basis is unknown at present.
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PMID:Familial partial lipodystrophy: a monogenic form of the insulin resistance syndrome. 1113 44

Lipodystrophy has been reported by some as one of the side effects of protease inhibitor therapy. However, evidence of lipodystrophy occurring prior to protease therapy supports the premise that this phenomenon has unknown origins. Characteristics of this disorder are the redistribution of fat to unusual places in the body, such as under abdominal muscles or at the base of the neck. Theories are proposed to explain the causes of lipodystrophy, and some of the possible treatments are discussed. Other side effects of protease inhibitor therapy that have been observed are changes in triglycerides, higher cholesterol, diabetes, and high blood pressure. All of these have the potential to lead to heart disease.
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PMID:Therapy side effects update. 1136 37

We report the case of a 40-year-old HIV-positive man, undergoing three-drug antiretroviral therapy for 2 years that included a protease inhibitor (ritonavir). The patient was admitted to our Coronary Care Unit with an acute anterior myocardial infarction. He smoked 20 cigarettes/day and had a family history of hypertension. At the time of hospitalization, triglyceride levels were found to be high (290 mg/dl). Metabolic alterations associated with the prolonged use of protease inhibitors, such as insulin resistance, dyslipidemia and lipodystrophy, have recently been described. This side effect may lead to premature coronary artery disease. Therefore it is mandatory to be aware that treatment with protease inhibitors in HIV-positive patients, despite survival prolongation and lowering of AIDS complications, may accelerate atherosclerosis and precipitate acute coronary events, especially in patients with pre-existing cardiovascular risk factors.
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PMID:[Acute myocardial infarct in HIV-positive patients in treatment with protease inhibitors]. 1177 17

In the last few years there has been an explosion of research that has improved our understanding of the pathogenesis of Type 2 diabetes mellitus (DM-2) and has led to the development of new oral antidiabetic drugs. Thiazolidinediones (TZDs) are the newest of these antidiabetic agents. TZDs are insulin sensitisers that depend on the presence of insulin for their action. They target insulin resistance, which is thought to play a central role in DM-2 and the associated metabolic syndrome characterised by central obesity, hypertension, dyslipidemia and hypercoagulability, all leading to increased cardiovascular morbidity and mortality. As a result, TZDs have the potential to improve other conditions associated with the metabolic syndrome, in addition to their glycaemic action. TZDs act by activating peroxisome proliferator-activated receptor (PPAR) phi a nuclear receptor implicated not only in lipid and glucose metabolism but other physiological functions as well. TZDs may have wide clinical applications beyond DM-2, as they can potentially be used to treat other conditions associated with insulin resistance and PPAR-phi receptors, such as impaired glucose tolerance, polycystic ovarian syndrome and HIV lipodystrophy.
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PMID:Thiazolidinediones in the treatment of type 2 diabetes. 1199 32

Treatment of HIV infection with potent combination antiretroviral therapy has resulted in major improvement in overall survival, immune function and the incidence of opportunistic infections. However, HIV infection and treatment has been associated with the development of metabolic complications, including hyperlipidaemia, diabetes mellitus, hypertension, lipodystrophy and osteopenia. Safe pharmacological treatment of these complications requires an understanding of the drug-drug interactions between antiretroviral drugs and the drugs used in the treatment of metabolic complications. Since formal studies of most of these interactions have not been performed, predictions must be based on our understanding of the metabolism of these agents. All HIV protease inhibitors are metabolised by and inhibit cytochrome P450 (CYP) 3A4. Ritonavir is the most potent inhibitor of CYP3A4. Ritonavir and nelfinavir also induce a host of CYP isoforms as well as some conjugating enzymes. The non-nucleoside reverse transcriptase inhibitor delavirdine potently inhibits CYP3A4, whereas nevirapine and efavirenz are inducers of CYP3A4. Drug interaction studies have been performed with HIV protease inhibitors and HMG-CoA reductase inhibitors. Coadministration of ritonavir plus saquinavir to HIV-seronegative volunteers resulted in increased exposure to simvastatin acid by 3059%. Atorvastatin exposure increased by 347%, but exposure to active atorvastatin increased by only 79%. Conversely, pravastatin exposure decreased by 50%. Similar results have been obtained with combinations of simvastatin and atorvastatin with other HIV protease inhibitors. Thus, the lactone prodrugs simvastatin and lovastatin should not be used with HIV protease inhibitors. Atorvastatin may be used with caution. Although there are no formal studies available, calcium channel antagonists and repaglinide may have significant interactions and toxicity when used with HIV protease inhibitors because of their metabolism by CYP3A4. Sulfonylurea drugs utilise mainly CYP2C9 for metabolism, and this isoenzyme may be induced by ritonavir and nelfinavir with a resulting decrease in efficacy of the sulfonylurea. Losartan may have increased effect when coadministered with ritonavir and nelfinavir because of the induction of CYP2C9 and the expected increase in formation of the active metabolite, E-3174. Overall, well-designed drug-drug interaction studies at steady state are needed to determine whether antiretroviral drugs may be safely coadministered with many of the drugs used in the treatment of the metabolic complications of HIV infection.
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PMID:Interactions between antiretroviral drugs and drugs used for the therapy of the metabolic complications encountered during HIV infection. 1240 66

We previously reported a syndrome of severe hyperinsulinemia and early-onset hypertension in three patients with dominant-negative mutations in the nuclear hormone receptor peroxisome proliferator-activated receptor (PPAR)-gamma. We now report the results of further detailed pathophysiological evaluation of these subjects, the identification of affected prepubertal children within one of the original families, and the effects of thiazolidinedione therapy in two subjects. These studies 1) definitively demonstrate the presence of severe peripheral and hepatic insulin resistance in the affected subjects; 2) describe a stereotyped pattern of partial lipodystrophy associated with all the features of the metabolic syndrome and nonalcoholic steatohepatitis; 3) document abnormalities in the in vivo function of remaining adipose tissue, including the inability of subcutaneous abdominal adipose tissue to trap and store free fatty acids postprandially and the presence of very low circulating levels of adiponectin; 4) document the presence of severe hyperinsulinemia in prepubertal carriers of the proline-467-leucine (P467L) PPAR-gamma mutation; 5) provide the first direct evidence of cellular resistance to PPAR-gamma agonists in mononuclear cells derived from the patients; and 6) report on the metabolic response to thiazolidinedione therapy in two affected subjects. Although the condition is rare, the study of humans with dominant-negative mutations in PPAR-gamma can provide important insight into the roles of this nuclear receptor in human metabolism.
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PMID:Human metabolic syndrome resulting from dominant-negative mutations in the nuclear receptor peroxisome proliferator-activated receptor-gamma. 1266 60

Adipose tissue evolved to efficiently store energy for times of caloric restriction. The large caloric excess common in many Western diets has negated the need for this thrifty function, leaving adipose tissue ill-equipped to handle this increased load. An excess of adipose tissue increases risk for a number of conditions including coronary artery disease, hypertension, dyslipidemias, type 2 diabetes, and even cancer. Indeed, the ability of the adipocyte to function properly when engorged with lipid can lead to lipid accumulation in other tissues, reducing their ability to function and respond normally. The role of adipose tissue as an endocrine organ capable of secreting a number of adipose tissue-specific or enriched hormones, known as adipokines, is gaining appreciation. The normal balance of these adipose tissue secretory proteins is perturbed in obesity. Paradoxically, the lack of normal adipose tissue, as seen in cases of lipodystrophy and lipoatrophy, is also associated with pathologic sequelae similar to what is seen with obesity. The pathologic findings associated with lack of adipose tissue, largely due to inability to properly store lipids, may also be due to a lack of adipokines. In this review, we highlight the role of adipose tissue as an endocrine organ focusing on some of the recent advances in the identification and pharmacological characterization of adipokines as well as their regulation in the context of obesity and insulin-resistant states.
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PMID:Minireview: The adipocyte--at the crossroads of energy homeostasis, inflammation, and atherosclerosis. 1293 46


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