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)

Cardiotrophin-1 (CT-1) is a novel cytokine that was discovered from mouse embryoid bodies by means of expression cloning. It induces hypertrophy in cultured myocytes by activating a gp130 signaling pathway. To investigate the expression of the CT-1 gene in both normal adult and genetically hypertensive rats, we cloned rat CT-1 cDNA. The amino acid sequence is 94% identical to that of mouse CT-1. A significant amount of CT-1 mRNA was expressed in the ventricle of adult rats and also detected in the lung, kidney, liver, skeletal muscle, stomach and urinary bladder. Northern blot analysis revealed that the CT-1 mRNA level is significantly augmented in the ventricle of 12-week-old spontaneously hypertensive rats-stroke prone/Izm at a stage of established hypertension, suggesting a possible relevance of CT-1 to ventricular hypertrophy.
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PMID:cDNA cloning of rat cardiotrophin-1 (CT-1): augmented expression of CT-1 gene in ventricle of genetically hypertensive rats. 860 95

The intravascular renin-angiotensin system is an endocrine system designed to maintain cardiovascular homeostasis in response to hypotension. Under normal conditions, angiotensinogen concentrations circulating in the plasma are rate limiting for the maximum velocity of angiotensin I formation. In the liver, the major site of circulating angiotensinogen synthesis, angiotensinogen expression is under exquisite hormonal control. We review the mechanisms by which hormones effect transcriptional control of angiotensinogen expression. Adrenal-derived glucocorticoids produce the translocation of the glucocorticoid receptor into the nucleus. It in turn binds to two glucocorticoid response elements and stimulates angiotensinogen gene transcription. Inflammation activates angiotensinogen transcription as a result of the macrophage-derived cytokines interleukin-1 and tumor necrosis factor-alpha. These cytokines change the abundance of two transcription factor families that bind a single regulatory site in the angiotensinogen promoter, the acute-phase response element. These proteins include the nuclear factor-kappaB complex and the CCAAT/enhancer binding protein family. Activation of the renin-angiotensin system, through production of angiotensin II, results in feedback stimulation of angiotensinogen synthesis (the "positive feedback loop"). We have discovered that the nuclear factor-kappaB transcription factor is regulated by angiotensin II, a finding that provides a mechanism for the transcriptional component of angiotensinogen gene synthesis in the positive feedback loop. These studies underscore the concept that induction of the angiotensinogen gene by diverse physiological stimuli is mediated through changes in the nuclear abundance of sequence-specific transcription factors. The intracellular convergence of cytokine- and angiotensin II-induced signaling pathways on the nuclear factor-kappaB transcription factor provides a point for "cross talk" between angiotensin- and cytokine-activated second messenger pathways.
Hypertension 1996 Mar
PMID:Mechanisms for inducible control of angiotensinogen gene transcription. 861 88

Cytokines and endotoxin stimulate inducible NO synthase (iNOS) in different types of cells; however, little is known about regulatory mechanisms. Using the Griess reagent for nitric levels, Western blots for iNOS protein, Northern blots for iNOS mRNA, and transient transfection studies to monitor transcription, we determined potential mechanisms involved in interleukin-1beta stimulation of iNOS in cultured neonatal ventricular myocytes. When myocytes were treated with interleukin-1beta (5 ng/mL), nitrite levels increased, and this effect was inhibited 80% by the specific iNOS inhibitor aminoguanidine. Neither interferon gamma nor tumor necrosis factor-alpha alone stimulated nitrite production. Bacterial endotoxin alone stimulated nitrites and potentiated the effect of interleukin. To determine whether a tyrosine kinase-mediated signaling pathway was involved in interleukin action, we used the inhibitor genistein, which blocked interleukin-stimulated nitrites, iNOS protein, and iNOS mRNA. To determine the effect of activation of protein kinase C, we treated cells with the phorbol ester phorbol 12-myristate 13-acetate (PMA). PMA decreased both interleukin-stimulated nitrites and iNOS protein by 40%. To determine the involvement of cyclic nucleotides, cells were treated with either dibutyryl cAMP or cGMP. cAMP (1 mmol/L) stimulated iNOS mRNA, protein, and nitrite production, whereas cGMP had no effect. To test for a direct effect of interleukin on transcription of the iNOS gene, we transfected the full-length mouse iNOS 5' regulatory sequences (-1592 to +160) coupled to a luciferase reporter gene (-1592iNOSLuc). Interleukin stimulated luciferase activity 1.8 +/- 0.2-fold. To determine whether interleukin also affects iNOS mRNA stability, interleukin-stimulated iNOS mRNA was allowed to decay in the presence of the transcription inhibitor actinomycin D. iNOS mRNA t1/2 (approximately 1 hour) was not affected by interleukin. Thus, our data suggest that (1) interleukin-1beta is the primary cytokine in myocyte iNOS regulation and acts predominantly at the transcriptional level; (2) interleukin stimulation of iNOS mRNA and protein is coupled to a tyrosine kinase-mediated signaling pathway; and (3) protein kinase C and cAMP can modify interleukin signaling by decreasing and increasing iNOS, respectively.
Hypertension 1996 Mar
PMID:Mechanisms of interleukin-1beta regulation of nitric oxide synthase in cardiac myocytes. 861 29

Angiotensinogen encodes the only known precursor of angiotensin II, a critical regulator of the cardiovascular system. Transcriptional control of angiotensinogen in hepatocytes is an important regulator of circulating angiotensinogen concentrations. Angiotensinogen transcription is increased by the inflammatory cytokine tumor necrosis factor (TNF)-alpha by a nuclear factor-kappaB-like protein binding to an inducible enhancer called the acute-phase response element. By gel mobility shift assays, we observe two specific acute-phase response element-binding complexes, C1 and C2. The abundance of C2 is not changed by TNF treatment. In contrast, C1 is faintly detected in untreated cells, and its abundance increases by fivefold after stimulation. We identify the nuclear factor-kappaB subunits in these complexes using subunit-specific antibodies in the gel mobility "supershift" assay. The transcriptionally inert nuclear factor-kappaB DNA-binding subunit NF-kappaB1 is present in both control and stimulated hepatocyte nuclei. Its abundance changes weakly upon TNF stimulation. In contrast, the potent transactivating protein Rel A is not found in unstimulated hepatocyte nuclei and is recruited by TNF-alpha into the C1 DNA-binding complex. Overexpression of Rel A results in acute-phase response element transcription. Cotransfection of a chimeric GAL4-Rel A protein with GAL4 DNA-binding sites is a strategy that allows for selective study of Rel A. The GAL4:Rel A chimera is a TNF-alpha-inducible transactivator. Deletion of the amino-terminal 254 amino acids of Rel A produces a constitutive activator (that is no longer TNF-alpha inducible). The cytokine induction of Rel A, then, is mediated through its amino-terminal 254 amino acids. We conclude that Rel A:NF-kappaB1 is a crucial cytokine-inducible transcription factor complex regulating angiotensinogen gene synthesis in hepatocytes and may be involved in controlling the activity of the renin-angiotensin system.
Hypertension 1996 Apr
PMID:Tumor necrosis factor activates angiotensinogen gene expression by the Rel A transactivator. 861 56

Glomerular distention from increased intraglomerular pressure stretches mesangial cells (MCs). Stretching MCs in culture stimulates extracellular matrix accumulation, suggesting that this may be a mechanism for glomerular hypertension-associated glomerulosclerosis. We examined whether mechanical stretching serves as a stimulus for the synthesis and activation of the prosclerotic molecule transforming growth factor (TGF)-beta, thus providing a potential system for auto-induction of extracellular matrix. Rat MCs cultured on flexible-bottom plates were subjected to cyclic stretching for up to 3 days and then assayed for TGF-beta mRNA, secretion of TGF-beta, and localization of active TGF-beta by immunostaining. MCs contained mRNA for all three mammalian isoforms of TGF-beta. Cyclic stretching for 36 hours increased TGF-beta1 and TGF-beta3 mRNA levels approximately twofold, without altering the levels of TGF-beta2 mRNA. This was followed at 48 to 72 hours by the increased secretion of both latent and active TGF-beta1. Latent, but not active, TGF-beta3 secretion also increased whereas the levels of TGF-beta2 were unaffected by mechanical force. The stretching force in this system is unequally distributed over the culture membrane. Localization of active TGF-beta by immunostaining demonstrated that the quantity of cell-associated cytokine across the culture was directly proportional to the zonal amplitude of the stretching force. These results demonstrate that stretching force stimulates MCs to selectively release and activate TGF-beta1. This mechanical induction of TGF-beta1 may help explain the increased extracellular matrix associated with intraglomerular hypertension.
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PMID:Cyclic stretching force selectively up-regulates transforming growth factor-beta isoforms in cultured rat mesangial cells. 866 77

Calcium antagonists have evolved as an important class of cardiovascular therapeutic agents. Usefulness in treating hypertension, angina pectoris, and cardiac arrhythmias has been established. Investigations show that calcium antagonists have a role in altering renal functions. They are natriuretic and may benefit salt-sensitive hypertensives. They have been shown to block vasoconstriction of the afferent arteriole in the presence of constrictors such as endothelin, thromboxane, norepinephrine, and angiotensin II. These vasoconstrictors may be mediators of nephrotoxins such as radiocontrast agents, and cyclosporine A. Actions of calcium antagonists which are being investigated for potential benefit in ameliorating chronic renal disease include: preventing glomerular hypertrophy, blocking angiotensin II-mediated macromolecule entry into mesangial cells and cytokine release, free-radical scavenger activity, and decreasing calcium deposition within the kidney. Slowing the progression of renal disease with the calcium antagonists has been demonstrated in both short- and long-term trials. Further studies are currently underway.
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PMID:Calcium antagonists and the kidney. 868 67

Nitric oxide (NO) generated from arginine exerts a variety of renal and extrarenal physiological and pathophysiological effects. NO is generated by two types of nitric oxide synthases: acutely responsive, constitutive NOS and slower, more persistent inducible NOS (iNOS). The latter is transcriptionally dependent, often stimulated by cytokines. NO regulates glomerular ultrafiltration, tubular reabsorption, and intrarenal renin secretion; many of these renal effects are mediated by interactions with angiotensin II and adrenergic (alpha 2) activity. Decreased NO activity also enhances tubuloglomerular feedback activity, which could contribute to renal vasoconstriction, NaCl retention, and elevated blood pressure. Loss of renal function could influence NO activity via: (1) endothelial dysfunction; (2) decreased arginine synthesis by kidney; (3) responses to arginine analogs that act as NOS inhibitors; (4) increased cytokine activity; and (5) altered oxidation:reduction status of cells, etc. For example, platelet dysfunction in uremia may be caused by cytokine-induced iNOS activation. Moreover, acutely responsive, constitutive NOS activity may be depressed in progressive loss of renal function. Decreased NO activity might contribute to baroreceptor dysfunction observed in hypertension and progressive renal disease. Studies of the impact of uremia suggest that iNOS may be chronically stimulated by cytokines, whereas acutely responsive, constitutive NOS activity may be concurrently depressed.
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PMID:Activities of nitric oxide in normal physiology and uremia. 873 57

We have proposed that an interaction between perivascular macrophages and endothelium via cytokines could underlie the increased risk of stroke in hypertension. Therefore, the activation of monocytes, the endothelial expression of intercellular adhesion molecule-1 (ICAM-1), and the numbers of monocytes/macrophages in carotid arteries, as well as the cytokine production in carotid tissue, of spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto and Sprague-Dawley rats were studied. The total number of blood monocytes (890 +/- 153 cells/mm3, n = 10) and the number of activated (nitro blue tetrazolium-positive) monocytes (220 +/- 51 cells/mm3, n = 10) were significantly greater (P < 0.05) in SHR than in WKY rats (440 +/- 81 and 40 +/- 16 cells/mm3, respectively, n = 10). Patchy endothelial expression of ICAM-1 was found in 77 +/- 9% of carotid sections from stroke-prone SHR (SHR-SP, n = 5) and in 75 +/- 7% of the sections from SHR (n = 7) but in none of the sections from the two normotensive rat strains (n = 7). The number of endothelium-attached monocytes/macrophages per millimeter of internal elastic lamina was significantly greater in SHR-SP than in SHR [5.1 +/- 0.7 (n = 4) and 3.3 +/- 0.3 (n = 6), P < 0.05], whereas no monocytes were found around the endothelium in either of the normotensive rat strains (n = 7 in each group). Incubation of the carotid arteries with lipopolysaccharide (30-300 ng/ml) induced a concentration-dependent expression of mRNAs for interleukin-1 beta and release of tumor necrosis factor-alpha to a significantly greater degree in the SHR than in the Wistar-Kyoto rats. The results demonstrate that hypertension is associated with activation of monocytes and endothelium and an increased endothelial adhesion and subendothelial accumulation of monocytes/macrophages and with an increased vascular capacity to produce cytokines.
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PMID:Evidence for activation of endothelium and monocytes in hypertensive rats. 876 65

DOCA-NaCl treatment causes hypertension, accelerates development of proteinuria, and leads to glomerulosclerosis in rats with autoimmune Heymann nephritis. To study the mechanisms of kidney injury induced by renal haemodynamic load in chronic nephritis, we studied by immunohistochemistry the local expression of various cytokines, growth factors and adhesion molecules in the kidneys of Heymann nephritic rats with or without DOCA-NaCl-induced hypertension. The DOCA-NaCl-nephritis group developed hypertension and marked renal enlargement as compared with the nephritis group, the DOCA-NaCl group, and the controls. Albuminuria appeared earlier and was heavier in the DOCA-NaCl-nephritis group compared with the nephritic rats without DOCA-NaCl. Expression of IL-6, TNF-alpha, GM-CSF, b-FGF, NGF, TGF-beta, and ICAM-1 was enhanced in the kidneys of the DOCA-NaCl-nephritis group as compared with other groups, localized mainly in the glomerular mesangium (IL-6, GM-CSF, TGF-beta), glomerular and peritubular endothelium (ICAM-1), and collecting ducts (TNF-alpha, b-FGF, NGF, TGF-beta), possibly associated with the observed tubulointerstitial mononuclear cellular infiltration. Thus in autoimmune Heymann nephritis, DOCA-NaCl treatment causes hypertension and increased renal mass together with upregulation of local cytokine and growth factor production, which may further aggravate hypertension and accelerate progression of renal damage.
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PMID:Increased renal expression of cytokines and growth factors induced by DOCA-NaCl treatment in Heymann nephritis. 880 10

The inducible nitric oxide synthase (iNOS) present in vascular smooth muscle cells (VSMC) may play a role in the generation of nitric oxide (NO) in the vascular wall, regulating blood vessel tone in normotension and hypertension. In this study the effect of interleukin (IL)-1 beta, a cytokine that induces iNOS, on NO generation (measured as nitrite), cyclic guanosine monophosphate (cGMP) generation, and steady-state abundance of iNOS mRNA were examined in VSMC from 3 week old spontaneously hypertensive rats (SHR) and Wistar-Kyoto (WKY) rats, during the period preceding the elevation of blood pressure. With cell density dependent variations in nitrite production eliminated, VSMC from SHR and WKY did not differ in NO generation except after prolonged incubation (30 h), when SHR cells produced less NO. However, cGMP concentrations associated with IL-1 beta stimulation were significantly smaller in SHR VSMC than in cells from WKY. IL-1 beta stimulation resulted in increased abundance of iNOS mRNA to the same extent in both WKY and SHR VSMC. Inhibitors of NOS, NG-monomethyl-L-arginine (L-NMMA) and N omega-nitro-L-arginine methyl ester (L-NAME), did not block the induction of iNOS mRNA, although nitrite production and cGMP generation were inhibited. The protein synthesis inhibitor cycloheximide and the RNA synthesis inhibitor actinomycin-D almost completely blocked the production of nitrite in cells from both strains of rats. Actinomycin-D completely blocked the induction of iNOS mRNA by IL-1 beta in cells from both strains of rats, whereas cycloheximide partially blocked its synthesis in WKY, but had no significant effect on IL-1 beta induced expression of iNOS mRNA in SHR VSMC. Thus, IL-1 beta controls iNOS gene expression at the transcriptional level, and an intermediate labile protein, whose synthesis is inhibited by cycloheximide, is required for IL-1 beta stimulated induction of iNOS mRNA transcription in WKY cells but not in SHR. We conclude that although iNOS is expressed to similar extent in VSMC of prehypertensive SHR and WKY and similar amounts of NO are initially generated, there are differences between the VSMC of SHR and WKY in the regulation of the transcription of iNOS mRNA, there is a lower sustained production of NO, and there is a reduced generation of cGMP in response to IL-1 beta stimulated NO production. These differences between VSMC from prehypertensive SHR and WKY may indicate a pathophysiological role of iNOS in early blood pressure elevation in SHR.
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PMID:Inducible nitric oxide synthase in vascular smooth muscle cells from prehypertensive spontaneously hypertensive rats. 887 43


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