UMLS:C0020538 - FACTA Search

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

The subtype 1A dopamine receptor (D1A) has recently been detected in the rat kidney. In the present study using light microscopic immunohistochemistry, electron microscopic immunocytochemistry, and in situ amplification of mRNA, we demonstrate the D1A receptor in Sprague-Dawley and Wistar Kyoto rat hearts. For immunohistochemistry and immunocytochemistry, anti-peptide polyclonal antibodies were directed toward amino acid sequences of the third extracellular and intracellular domains of the native receptor. Selectivity was validated by recognition of the D1A receptor expressed in stably transfected LTK- cells. D1A receptor mRNA was detected with a novel transcription-based isothermal in situ amplification system as well as with reverse transcription-polymerase chain reaction. D1A receptor protein was distributed throughout the atrium and ventricular myocardium. Preimmune and preabsorption controls were negative. Electron microscopic immunocytochemistry using the protein A gold method demonstrated the D1A receptor along the cellular membranes of coronary smooth muscle cells and ventricular myocytes and in the myosin thick filaments and M-lines. D1A receptor mRNA was present in coronary vessels and myocardium in amplified but not in unamplified sections. Western blot analysis showed specific D1A bands in transfected LTK- cells and the atrium but not in nontransfected LTK- cells and the ventricle. The selective D1-like receptor agonist SKF38393 stimulated adenylyl cyclase in ventricular myocardial plasma membranes in a dose-related fashion, and the response was abolished by the selective D1-like receptor antagonist SCH23390. These results demonstrate that the D1A receptor gene and protein are expressed in normal rat heart. The physiological and pathophysiological roles and predominant cell signaling mechanism or mechanisms of this receptor remain to be determined.
Hypertension 1996 Mar
PMID:Expression of the subtype 1A dopamine receptor in the rat heart. 861 27

During vascular development, the expression of tropoelastin (TE) messenger ribonucleic acid (mRNA) has been shown to be time dependent and to form complex patterns along the longitudinal and radial arterial axes. The factors contributing to these patterns of TE expression are not known, but it has been suggested that they reflect phenotypic changes in developing smooth muscle cells (SMC). In order to examine a possible correlation between the developmental state of the SMC and TE expression during lung vascular development, we localized and assessed relative TE mRNA expression in the developing bovine main pulmonary artery (PA), and correlated the observed patterns of TE expression to changes in SMC phenotype as determined by the expression of various developmentally related SMC proteins. Further, because TE expression can be modulated by physical forces such as pressure, fetal PA TE expression was evaluated with regard to changes in fetal arterial pressure. We found that expression of TE mRNA exhibited a biphasic pattern during fetal development. In early gestation, expression was noted throughout the entire PA wall; at midgestation, expression was markedly decreased in the outer wall but maintained in the inner vascular media; at late gestation, reexpression was observed throughout the entire PA wall, albeit in a heterogeneous pattern. Immunohistochemical studies showed that the decrease in SMC TE expression during midgestation coincided with the acquisition of SMC-specific proteins such as smooth muscle myosin heavy chains and desmin. The reexpression of TE late in gestation occurred in these "differentiated" SMC and was temporally associated with a large increase in arterial pressure shown to occur in late gestation. In addition, we identified an SMC population defined by its immunoreactivity to the muscle-specific cytoskeletal protein meta-vinculin that did not express TE mRNA either during fetal PA development or postnatally when PA hypertension was induced. We conclude that both the developmental state of the SMC and hemodynamic forces correlate with the pattern of PA TE mRNA expression during pulmonary vascular development. Further, a subpopulation of SMC defined by meta-vinculin expression exists in the fetal and neonatal bovine vascular wall and does not express detectable levels of TE mRNA regardless of vascular pressure.
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PMID:Expression and localization of tropoelastin mRNA in the developing bovine pulmonary artery is dependent on vascular cell phenotype. 865 85

We studied the effect of chronic (7 days) angiotensin II (Ang II) infusion in nonpressor and pressor doses on cardiovascular mass and expression of alpha- and beta-myosin heavy chain genes in the left ventricle in normotensive Wistar rats. An increased left ventricular mass was observed in rats receiving non-pressor and pressor doses of Ang II, but only high doses increased arterial pressure. Normalization of arterial pressure during Ang II infusion by losartan, a specific Ang II receptor antagonist, or hydralazine had different effects on left ventricular mass. Losartan prevented the increased left ventricular mass, and hydralazine did not affect left ventricular mass. Northern blot analysis showed that the switch in left ventricular myosin isoform mRNA from the adult to the fetal pattern occurred only in rats given the pressor Ang II dose. Both losartan and hydralazine, in parallel with the normalization of arterial pressure, prevented this myosin isoform switch. Thus, these data suggest that the Ang II-induced increase in left ventricular mass was not dependent on pressure overload, but the switch in myosin isoform mRNA from the adult to the fetal pattern was dependent on pressure overload.
Hypertension 1996 Aug
PMID:Angiotensin II increases left ventricular mass without affecting myosin isoform mRNAs. 870 92

Although the overall shift towards the V3 myosin heavy chain (MHC) has been shown to be associated with cardiac hypertrophy, quantitative evidence describing regional expression is sparse. The aim of this study was to compare and contrast the regional ventricular myosin isoform expression in two distinct haemodynamic states: pressure and volume overload. Volume overload was achieved using an aortocaval fistula (ACF) model and pressure overload by two-kidney-one-clip (2K1C) hypertension. A separate group (UC-2K1C) had the clip removed 1 week prior to investigation. Sham operated rats (SHAM) served as controls. All groups were studied 4 weeks after surgery. Ventricular tissue samples (approximately 50 mg) were taken from the walls of the right ventricle (RV), septum and left ventricular (LV) free wall. Tissue samples (excluding RV) were divided into endocardium and epicardium, and myosin expression was determined using polyacrylamide gel electrophoresis. Cardiac hypertrophy was substantial in both LV (1.7-fold) and RV (1.9-fold) in ACF rats. The 2K1C rats had similar LV enlargement (1.6-fold) whereas RV hypertrophy was not as great (1.2-fold). Blood pressure (BP) was increased 65% in 2K1C rats, whereas there was no change in ACF rats with respect to SHAM animals. After unclipping (UC-2K1C), LV hypertrophy and BP had returned towards control levels. In general, V3 MHC expression was associated with increasing LV hypertrophy in both 2K1C and ACF models. However, there was a marked endo-epi differential (1.5:1) in the LV free wall and septum of 2K1C rats. In contrast, in ACF rats there was no differential V3 MHC expression in the LV or septal tissue, i.e. expression was similar in both endo- and epi-samples. Elevated expression of V3 MHC persisted despite normotension and regression of cardiac hypertrophy in UC-2K1C rats. Taken together with published results demonstrating that relative transmural myocyte hypertrophy in ACF rats (endo > epi) is in contrast to that seen in 2K1C rats (epi > endo), the present findings reveal that regional V3 myosin expression represents a distinct adaptational component of the overall cardiac hypertrophic response in both volume and pressure overload.
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PMID:Regional myosin heavy chain expression in volume and pressure overload induced cardiac hypertrophy. 871 59

The renin-angiotensin system has been implicated in the hypertrophic adaptation of the heart to exogenous pathological loads, such as hypertension and aortic stenosis; however, the role of this hormonal system in the cardiac adaptations to physiological loads, such as chronic exercise conditioning, has not been established. We therefore studied the effect of angiotensin receptor 1 (AT1) blockade on the chronic cardiac responses of rats subjected to an 8-wk swimming program. Compared with matched sedentary controls, untreated swimmers increased their left ventricular weights by 13%, and swimmers treated with the AT1 antagonist L-158809 increased their left ventricular weights by 11% (both P < 0.05 vs. sedentary controls). The incorporation of labeled amino acids into the heart at the time of death was unchanged in all groups, and therefore the increase in heart weight in both swim-conditioned groups appeared to reflect a decrease in the rate of protein degradation in the heart. Hearts from both swim-conditioned groups manifested an increase in the V1-predominant myosin isoform pattern but not an increase in atrial natriuretic factor mRNA expression or protein kinase C translocation. The fact that these patterns of adaptation are preserved in exercised conditioned animals treated with an AT1 antagonist suggests that the chronic hypertrophic response of the heart to physiological loads is not influenced by the renin-angiotensin system.
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PMID:Angiotensin receptor 1 blockade does not prevent physiological cardiac hypertrophy in the adult rat. 887 51

The heart is a major target organ for thyroid hormone action, and marked changes occur in cardiac function in patients with hypothyroidism or hyperthyroidism. Triiodothyronine (T3)-induced changes in cardiac function can result from direct or indirect T3 effects. Direct T3 effects result from T3 action in the heart itself and are mediated by nuclear or extranuclear mechanisms. Extranuclear T3 effects, which occur independently of nuclear T3 receptor binding and increases in protein synthesis, influence primarily the transport of amino acids, sugars, and calcium across the cell membrane. Nuclear T3 effects are mediated by the binding of T3 to specific nuclear receptor proteins, which results in increased transcription of T3-responsive cardiac genes. The T3 receptor is a member of the ligand-activated transcription factor family and is encoded by cellular erythroblastosis A (c-erb A) genes. T3 increases the heart transcription of the myosin heavy chain (MHC) alpha gene and decreases the transcription of the MHC beta gene, leading to an increase of myosin V1 and a decrease in myosin V3 isoenzymes. Myosin V1, which is composed of two MHC alpha, has a higher myosin ATPase activity than myosin V3, which contains two MHC beta. The globular head of myosin V1, with its higher ATPase activity, leads to a more rapid movement of the globular head of myosin along the thin filament, resulting in an increased velocity of contraction. T3 also leads to an increase in the speed of diastolic relaxation, which is caused by the more efficient pumping of the calcium ATPase of the sarcoplasmic reticulum (SR). This T3 effect results from T3-induced increases in the level of the mRNA coding for the SR calcium ATPase protein, leading to an increased number of calcium ATPase pump units in the SR. Overall, T3 leads to an increase in ATP consumption in the heart. In addition, less chemical energy of ATP is used for contractile purposes and more of it goes toward heat production, which causes a decreased efficiency of the contractile process in the hyperthyroid heart. The pathophysiologic basis for myxedema is the opposite of that discussed for the hyperthyroid heart. In addition to decreased direct effects of thyroid hormone in cardiac myocytes, indirect effects occur through decreases in peripheral oxygen consumption and changes in hemodynamic parameters. Myofibrillar swelling with loss of striation and interstitial fibrosis occurs on histologic examination of hypothyroid hearts. In addition, accumulation of mucopolysaccharide substances (Glycosaminoglycans) can be demonstrated. On electron microscopic examination, mitochondria show disruption and lipid inclusion. Cardiac papillary muscle obtained from animals with hypothyroidism shows a depression of the force velocity curve and reduced rate of tension development, indicating significant contractile abnormalities. In patients with hypothyroidism, a true enhanced incidence of hypertension (increased peripheral vascular resistance) has been found. In addition, hypercholesterolemia and impairment of fatty acid mobilization are associated with myxedema and present additional risk factors for the development of atherosclerotic cardiovascular disease.
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PMID:[Cardiovascular effects of thyroid hormones]. 906 69

The aim of this study was to investigate the roles of angiotensin II (Ang II) receptor subtypes 1 (AT1) and 2 (AT2) in producing vascular wall hypertrophy and qualitative changes in smooth muscle cell gene expression. Wistar rats were treated for 23 days with osmotic minipumps containing solvent and either Ang II (120 ng.kg-1.min-1) or PD123319 (30 mg.kg-1.d-1), an AT2 receptor antagonist. In addition, rats receiving solvent and either Ang II or PD123319 were given losartan, an AT1 receptor antagonist, in the drinking water (10 mg.kg-1.d-1). Vascular wall hypertrophy and smooth muscle phenotype were characterized by morphometric analysis combined with immunohistochemistry. Ang II-induced hypertension was associated with the development of medial hypertrophy of the aorta and coronary arteries accompanied by reversion of vascular smooth muscle cells (VSMCs) toward an immature phenotype, as shown by the expression of cellular fibronectin and nonmuscle myosin. Losartan treatment, which restored normal arterial pressure, prevented all these changes. PD123319 treatment, which had no effect on blood pressure, prevented only vascular hypertrophy, with no effect on VSMC phenotype. Administration of only losartan to normal rats reproduced the Ang II-induced vascular hypertrophy, with no effect on VSMC phenotype. Taken together, these results suggest that (1) the trophic effect of Ang II on VSMCs is mediated via AT2 receptor subtypes and (2) changes in VSMC phenotypes are triggered mainly through AT1 receptor subtypes.
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PMID:Differential roles of AT1 and AT2 receptor subtypes in vascular trophic and phenotypic changes in response to stimulation with angiotensin II. 908 79

The effects of chronic hypobaric hypoxia (CHH, 28 days, simulated altitude 5,500 m) on the cardiac expression of myosin heavy chain (MHC) and creatine kinase (CK) was studied in rat left (LV) and right (RV) ventricle. To separate the effects of hypoxia from its associated perturbations, anorexia and pulmonary hypertension (resulting in RV hypertrophy), CHH animals were compared with normoxic controls (C) and with rats restricted in food supply (pair fed, PF). In RV, the increased proportion of beta-MHC in CHH (20 +/- 3%) vs. C (7 +/- 2%, P < 0.01) and vs. PF (12 +/- 2%, P < 0.05) rats was mainly attributed to hypertension. In contrast, the higher beta-MHC of CHH (23 +/- 2%) vs. C (13 +/- 2%, P < 0.05) in LV was mainly ascribed to anorexia (PF = 21 +/- 3%, not significant). A major contribution of anorexia was also evidenced in the isozymic profile of CK; anorexia accounted for a 25% decrease in mito-CK specific activity in LV, whereas hypertension partly accounted for the threefold increase in BB-CK in RV. CHH specifically induced a twofold rise in LV BB-CK. This suggests that both the expression of slow myosin, improving the economy of contraction, and the changes in CK isozymic profile could provide a biochemical basis for the CHH resistance to ischemia.
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PMID:Adaptation of cardiac myosin and creatine kinase to chronic hypoxia: role of anorexia and hypertension. 913 52

Chronic pressure overload is known to increase cardiac mass and expression levels of both atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) mRNAs. Although mechanical stretching of cardiac myocytes could cause these changes, humoral factor(s) secondary to pressure overload may also be involved. To dissociate humoral effects from the effects of mechanical loading on cardiac hypertrophic responses, we examined expression of ANP and BNP at both mRNA and protein levels and proportions of myosin isoforms in transplanted cervical hearts that were mechanically unloaded under conditions with or without hypertension by aortic coarctation. Seven days after transplantation, cardiac atrophy that usually occurs in transplanted hearts without hypertension by coarctation was prevented in the transplanted hearts with hypertension by coarctation. The levels of expression of ANP and BNP mRNAs were increased in the transplanted hearts with relative to those without hypertension by coarctation. The plasma level of angiotensin II was higher in rats with than without hypertension by coarctation. Plasma endothelin-1 levels were not significantly different between the two groups. In addition, levels of expression of ANP and BNP mRNAs were increased in the transplanted hearts without hypertension relative to those in the in situ hearts. The proportion of the V3 myosin isoform was also increased in the transplanted hearts without hypertension relative to the in situ hearts. These results indicate that humoral factor(s) secondary to the pressure overload produced by aortic coarctation enhanced the cardiac hypertrophic response and elevated the levels of mRNAs encoding these embryonic markers. Moreover, our findings regarding ANP and BNP expression in the transplanted hearts provide additional evidence that the fetal genes are reexpressed during the process of cardiac atrophy as well as in cardiac hypertrophy.
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PMID:Humoral factor(s) produced by pressure overload enhance cardiac hypertrophy and natriuretic peptide expression. 924 81

Alterations in troponin T (TnT) isoforms have been reported in severe human and experimental heart failure (HF), and may play a role in the depressed myofibrillar ATPase activity observed in this condition. It is unclear whether these alterations reflect very severe hemodynamic derangement or are a component of mild hypertrophic stress. Therefore, we studied the expression of TnT isoforms (SDS-PAGE, Western blots), myosin isoforms, myofibrillar ATPase activity, and left ventricular (LV) mechanoenergetics (rbc perfused, isovolumically contracting isolated heart) in a rabbit model of mild hypertrophy (LVH) due to gradual hypertension caused by 12 weeks of cellophane wrap of the kidneys (n=12). LV/body weight ratio increased by 28% in LVH compared to shams (P<0.001); no animals had evidence of HF. In LVH, the percentage of TnT2 was modestly but significantly increased compared to shams [6.2+/-1.9 (+/-S.D. ) v 3.7+/-1.0%, P<0.05], mainly as a consequence of a parallel decrease in TnT4 (P=0.07). Sham hearts ranged from 75-100% V3 isomyosin, whereas all LVH hearts had 100% of the V3 form. There were no significant differences in myofibrillar ATPase activity or mechanical variables, including contraction and relaxation rates. The slope of the VO2-pressure-volume-area relation (a measure of the energy conversion efficiency of the contractile machinery) was also unchanged. We conclude that in the rabbit, shifts in TnT isoforms toward a more "fetal" pattern occur during mild LVH and, therefore, are likely to be a general feature of the response to hemodynamic stress, rather than a phenomenon confined to end-stage disease. These modest shifts are not associated with major alterations in LV myofibrillar ATPase activity or mechanoenergetics.
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PMID:Altered expression of troponin T isoforms in mild left ventricular hypertrophy in the rabbit. 929 58

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