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:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nonenzymatic glycation is increased in diabetes. The role of advanced glycation end products has been implicated in many of the complications of diabetes, whereas the effects of early-glycation Amadori-modified proteins on vascular cells alone are poorly defined. In the present study, we show that glycated serum albumin (GSA) induces a parallel activation of the redox-responsive transcription factors (nuclear factor kappaB) and AP-1 and increases activity of mitogen-activated protein kinases (MAPKs), extracellular signal-regulated kinase (ERK), and p38 MAPK in vascular smooth muscle cells (VSMCs). GSA increased expression of early response genes, c-fos and c-jun, and inflammatory genes, monocyte chemoattractant peptide (MCP-1), and interleukin (IL)-6. These effects were comparable to bacterial lipopolysaccharide, tumor necrosis factor-alphaa, (TNF-alphaa), IL-1alphab, angiotensin II, epidermal growth factor, and the phorbol ester PMA. One of signaling pathways by which GSA activates VSMCs appears to be via nuclear factor kappaB activation, leading to induction of MCP-1 and IL-6 gene expression, comparable to the effects of lipopolysaccharide, TNF-alphaa, and IL-1alphab. Another signaling cascade by which GSA activates VSMCs is the ERK-->c-Fos-->AP-1 pathway, which may lead to stimulation of cell proliferation and migration. These effects are comparable to the effects of angiotensin II, epidermal growth factor, and PMA. Incubation of VSMCs with the antioxidant N-acetylcysteine suppressed GSA-elicited mRNA induction of MCP-1 and IL-6. Inhibition of p38 MAPK but not ERK caused attenuation of MCP-1 and IL-6 mRNA induction. Finally, GSA caused a significant stimulation of VSMC growth and migration. These findings suggest that GSA may play a role in diabetic atherogenesis by activating VSMCs, leading to induction of inflammatory mediators in the vessel wall, as well as proliferation and migration of VSMCs.
Hypertension 2002 Jan
PMID:Vascular smooth muscle cell activation by glycated albumin (Amadori adducts). 1179 73

To explore the mechanism underlying cholecystokinin octapeptide (CCK-8) induced attenuation in pulmonary arterial hypertension (PAH) in endotoxic shock (ES), the effect of CCK-8 on the changes in rabbit pulmonary arterial reactivity induced by tumor necrosis factor-alpha (TNF-alpha) was observed with isolated arterial ring technique and by examination of nitric oxide synthase (NOS). The contractile response to 10(-6) mol/L phenylephrine (PE) and the endothelium dependent relaxation response to 10(-6) mol/L acetylcholine (ACh) were not affected by TNF-alpha (4000 U/ml) after incubation for 2 h; the relaxation response was decreased significantly when the incubation was prolonged to 7 or 14 h, which, however, could be reversed by a concomitant exposure to CCK-8 (0.5 microgram/ml), but the incubation of pulmonary arterial rings with CCK-8 (0.5 microgram/ml) alone did not bring out any contractile responses. The endothelium dependent relaxation response to 10(-6) mol/L ACh was restored by L arginine in the TNF-alpha group which had been incubated for 7 h, but was not affected by AG in each group, while the contractile response to 10(-6) mol/L PE increased significantly in the TNF-alpha group. The relaxant response to 10(-6) mol/L ACh changed into a contractile response after preincubation with L-NNA in each group, while the contraction response to 10(-6) mol/L PE increased significantly. The NOS activity increased in the TNF-alpha and the TNF alpha+CCK-8 groups, while no significant difference was observed between the vehicle and the CCK-8 groups. These results suggest that CCK-8 prevents TNF-alpha induced impairment in endothelium dependent relaxation response, and the effects of both CCK-8 and TNF-alpha are related to NO.
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PMID:[Role of nitric oxide in cholecystokinin octapeptide alleviation of tumor necrosis factor alpha induced changes in rabbit pulmonary arterial reactivity]. 1193 Feb 30

We have established a congenic hypertensive nude rat strain, SHR/NCrj-rnu, carrying nude (rnu) and hypertension genes which was produced using females of the SHR/NCrj rat and males of the F344/NJcl nude rat by cross-intercross system for 12 generations. We demonstrated the susceptibility to M. leprae infection of SHR/NCrj-rnu rats as compared with F344/NJcl-rnu rats. SHR/NCrj-rnu rats were highly susceptible to M. leprae, and the SHR/NCrj-rnu rats of both sexes showed massive swelling of legs due to multiplication of M. leprae. However, F344/NJcl-rnu rats of both sexes revealed very poor susceptibility to M. leprae. There was a wide difference in the susceptibility to M. leprae between the SHR/NCrj-rnu and the F344/NJcl-rnu rats. We also examined the cytokine production. The resident peritoneal macrophages of SHR/NCrj-rnu rats produced IL-1 alpha, IL-6, IL-10 and TNF alpha, whereas those of F344/NJcl-rnu rats produced only TNF alpha.
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PMID:[Susceptibility to Mycobacterium leprae of congenic hypertensive nude rat (SHR/NCrj-rnu) and production of cytokine from the resident peritoneal macrophages]. 1197 57

Insulin resistance is an important issue in the understanding of the metabolic syndrome. Clinical insulin resistance is usually defined by reduced insulin-mediated uptake of glucose in skeletal muscle. However, new studies have shown that liver and fat cells may also develop insulin resistance in subjects with the metabolic syndrome, specifically when these subjects are hyperglycaemic. New investigations also indicate that the endothelial cell itself can be insulin-resistant, reduced blood flow and increased peripheral resistance as the outcome. Insulin resistance may not only induce hyperglycaemia, but also dyslipidaemia (increased plasma levels of free fatty acids and triglyceride, and reduced plasma HDL levels) and arterial hypertension. All these variables may provoke arteriosclerosis and ischaemic heart disease. Specifically, abdominal adiposity seems to be responsible for insulin resistance in subjects with the metabolic syndrome. The mechanism could be intracellular accumulation of acyl CoA and triglyceride. However, an increased production of peptides from the adipose tissue, such as TNF alpha and reduced production of adiponectine may also play a role. The mechanism by which FFA and triglyceride, together with the peptides mentioned, may induce insulin resistance at a cellular level, resulting in reduced glucose transport and intracellular glucose processing, is still being discussed. A change in the insulin signalling cascade is one possibility, but the results so far have been contradictory. Another possibility is, of course, that the cellular accumulation of acyl CoA itself intervenes with gene expression and with phosphorylation of proteins.
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PMID:[Insulin resistance: organ manifestations and cellular mechanisms]. 1198 54

Expanded adipose tissue mass increases the risk for many clinical conditions including diabetes, hypertension, coronary atherosclerotic heart disease, and some forms of cancer. Therefore, it is imperative that we understand the mechanisms by which fat pads expand. The enlargement of fat cells during the development of obesity has been previously hypothesized to be a triggering factor for the proliferation of new fat cells. There is now a preponderance of evidence that adipose tissue is a source of growth factors such as IGF-I, IGF binding proteins, TNF alpha, angiotensin II, and MCSF that are capable of stimulating proliferation. The relative importance of these autocrine/paracrine factors in the normal control of preadipocyte proliferation is unknown. In addition, the proliferative response of preadipocytes to the paracrine milieu is undoubtedly modulated by neural inputs to fat tissue and/or serum factors. Together, these multiple regulatory controls orchestrate overall and region-specific adipose tissue cellularity responses associated with the development of hyperplastic obesity. Both in vivo and in vitro studies are needed to understand the complex, interacting physiological mechanisms by which growth of this important organ is regulated.
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PMID:The biology of white adipocyte proliferation. 1211 95

On-line hemodiafiltration (HDF) has been introduced into clinical practice in the last few years. The most important technical and regulatory challenges were the safety and microbiological quality of ultrafiltrated substitution/replacement fluid. The application of ultrafilters in a different technical arrangement in the fluid path based on polysulfone or polyamide membranes should prevent patient contact with endotoxins and other pyrogenic or bacteria-derived substances. After resolving these problems and providing clinically safe and technically robust product solutions, increasing numbers of patients have been treated, especially those with severe clinical conditions, e.g., diabetes, hypo- or hypertension. The benefit for patients was brought about by the increase of substitution rate in hemodiafiltration and enhancing convective mass transfer. The impact of highly convective therapy modes on the state of immunomodulation towards the syndrome of microinflammation has not been investigated in a systematic prospective manner. In this study, 8 patients undergoing bag-HDF treatment with lactate buffered solution were investigated before on-line HDF treatment with commercially available whole blood stimulation assays testing for TNF-alpha and IL-6 release. Both assays are based on phytohemagglutinine (for TNF) and lipo-polysaccharide stimulation (for IL-6). Thereafter the patients were switched to on-line production of substitution fluid. After a wash-out period of 2 sessions the whole blood stimulation assays were applied to the same patients. The Wilcoxon test (for paired analysis) was done, revealing a statistically significant lower release of proinflammtory cytokines from patients' blood upon stimulation with PHA or LPS. The reduction of IL-6 and TNF concentration and release capacity in whole blood may be attributed to the use of high quality ultrapure substitution fluid and dialysate in on-line treatment instead of lactate buffer bag solution. These results indicate that not only an increase of convective mass transfer by higher volume exchange, but also a decrease in unspecific activation of immunocompetent cells may have advantages for HDF-treated patients.
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PMID:On-line production of ultrapure substitution fluid reduces TNF-alpha- and IL-6 release in patients on hemodiafiltration therapy. 1270 82

The adipose tissue plays a fundamental role in maintaining the energy balance in mammals. During periods of high energy intake, the adipocytes store energy in the form of fat (triglycerides), which can be mobilized as free fatty acids during energy deprivation. Adipose tissue can no longer be considered only as a passive tissue that simply stores energy. Some recent discoveries have made it evident that this is a very active endocrine tissue that secretes important molecules related to different processes such as the immune response (TNF alpha) the regulation of food intake and expenditure of energy (leptin, Acrp30/adipoQ) and the vascular function (angiotensin and plasminogen activator inhibitor type 1). Alterations in the growth, development and function of the adipose tissue might therefore be involved in the development of different pathologies such as obesity, insulin resistance and type 2 diabetes, hypertension and atherosclerosis. A deeper understanding of the adipose tissue (morphology, development-adipogenesis, role in the metabolism and in the regulation of body weight, endocrine functions.) is needed for an adequate study of the underlying aspects in the development of obesity.
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PMID:[Adipose tissue: a storage and secretory organ]. 1286 Dec 68

The search for methods to control physiological levels of carbon monoxide (CO), a vasoactive molecule, and bilibrubin, an antioxidant, have improved our understanding of the protective role of heme oxygenase (HO) against oxidative injury. HO activity can assist other antioxidant systems in diminishing the overall production of reactive oxygen species, thus contributing to cellular resistance to such injury. Overexpression of HO gene by targeted gene transfer has become a powerful tool for studying the role of this human enzyme. Successful and functional HO gene transfer requires two essential elements. First, the HO gene must be delivered into a safe vector, such as the adenoviral, retroviral and leptosome based vectors that are currently being used in clinical trials. The use of non-viral vectors has also been described. Second, with the exception of HO gene delivery to ocular or cardiovascular tissue via catheter-based interventions, HO gene delivery must be site and organ specific. Site-specific delivery of HO-1 to renal structures in SHR, specifically mTAL, using Na+-K+ Cl- cotransporter (NKCC2 promoter), has been shown to normalize blood pressure and provide protection to mTAL against oxidative injury, respectively. Human HO-1 gene transfer into endothelial cells has been shown to attenuate Ang II- TNF- and heme-mediated DNA damage. Furthermore, delivery of human HO-1 into SHR has been shown to enhance somatic body growth and cell proliferation. The ability to transfect human HO gene and to demonstrate its expression may offer a new therapeutic strategy for treating pathological conditions, such as hypertension, trauma and hemorrhage.
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PMID:Therapeutic applications of human heme oxygenase gene transfer and gene therapy. 1452 50

Chronic inflammation is very common in patients on maintenance dialysis. It is associated with an increase of many cytokines (especially: IL-1, IL-6 and TNF alpha). This inflammation leads to hormonal dysregulation (leptin, adiponectin, insulin). Increase in cytokines is associated with a high cardio-vascular morbi-mortality for general population as well as for uremic patients. Many metabolic abnormalities are due to chronic inflammation: protein catabolism, anorexia and many others. Among them, the "metabolic" syndrome includes adiposis, dyslipemia, insulinoresistance and high blood pressure very often present in chronic uremic patients. It is still unknown whether anti-inflammatory treatments would improve inflammation consequences in dialysis.
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PMID:[Metabolic consequences of inflammation in kidney failure]. 1465 Jul 51

This study is to explore the association between M235T allele polymorphism of angiotensinogen (AGT) gene and cytokines using essential hypertension probands research method. In hypertensives and controls, polymerase chain reaction combined with restriction endonuclease digestion was used to detect the target genotype variation, and enzyme-lined immunosorbant assay (ELISA) was used to detect the cytokine concentrations (IL-1, IL-6, TNF). The results showed that in hypertensives AGT gene, TT genotype was 55.88%, MT 35.29% and MM 8.82%. The ratio of T/M allele frequency was 0.735/0.265. In controls AGT gene, TT genotype was 47.46%, MT 42.37% and MM 10.17%. The ratio of T/M allele frequency was 0.686/0.314. AGT gene 235 T allele frequency in hypertensives was slightly higher than those in controls. Furthermore AGT gene 235 TT genotype and T allele frequency in middle and high grade of hypertensives were significantly higher than those in mild grade. In subjects of AGT 235 T allele group, the concentrations of IL-1, IL-6 and TNF in hypertensives were significantly higher than those in controls. In subjects of AGT gene 235 M allele frequency, the concentrations of IL-1 and IL-6 in hypertensives were no significant than those in controls. No matter in groups more than 60 years old or less than 60 years old, the concentrations of IL-1, IL-6 and TNF in hypertensives were higher than those in controls. No matter in hypertensives or controls, there were no differences in concentrations of IL-1, IL-6 and TNF when comparing groups more than 60 years old with groups less than 60 years old. The study indicated that AGT gene TT genotype and AGT gene 235 T allele frequency may be an important risk factor for hypertension. The high frequency of AGT gene 235 T allele and the high concentrations of IL-1, IL-6 and TNF in hypertensives may cause hypertension developing. It is also suggested the cytokines may effect the transcription and expression of AGT gene 235 TT genotype in hypertension. The concentrations of IL-1, IL-6 and TNF had nothing to do with age no matter hypertensives or controls.
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PMID:[Studies of the association between angiotensinogen gene regulation and cytokines in essential hypertension]. 1466 17


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