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: EC:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Angiotensin II exerts its action via at least two distinct receptor subtypes designated AT1 and AT2. AT1 receptors seem to be responsible for most of the known angiotensin II effects while the role of AT2 receptors is not yet clear. Adipocytes of adult rats express exclusively the AT1 subtype. Angiotensin II stimulates prostacyclin release in adult rat adipocytes and in mouse preadipocytes. In the latter prostacyclin release is completely blocked by an AT2 receptor antagonist. Adipocyte angiotensin II receptors seem to be regulated by age and fat mass. Blockade of these receptors by an AT1 antagonist seems to prevent adipose tissue hypertrophy. Moreover, adipose tissue contains all the main components of the renin-angiotensin system such as angiotensinogen, angiotensin converting enzyme, angiotensin II and angiotensin II receptors. Angiotensinogen expression in adipocytes is stimulated by a high fat diet concurrent with enlargement of fat mass, associated with insulin resistance. Angiotensin converting enzyme inhibitors improve insulin sensitivity. Taken together, there is evidence of interaction between insulin and angiotensin II in regulation of adipose tissue metabolism and cellularity. Clarification of these interactions could lead to significant progress in pharmacological treatment of obesity and its comorbidity.
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PMID:The role of angiotensin II and its receptors in regulation of adipose tissue metabolism and cellularity. 878 38

To investigate angiotensinogen regulation in high-renin hypertension, we infused porcine renin intravenously at either a low (4 mU/kg per hour, n = 6) or high (20 mU/kg per hour, n = 9) dose into male Sprague-Dawley rats (225 to 250 g) for 5 days using osmotic minipumps. Control rats received 0.9% NaCl. In renin-infused rats, mean arterial pressure and plasma renin activity were significantly elevated. Both low- and high-renin infusions lowered plasma angiotensinogen levels. Plasma angiotension II was elevated in rats given renin but reached statistical significance only at the higher dose. Angiotensinogen mRNA isolated from the liver, adrenal gland, kidney, and brain was measured by slot blot analysis. Both renin doses were associated with significant decreases in the levels of liver and hypothalamic angiotensinogen mRNA. In the medulla oblongata, angiotensinogen mRNA was reduced only by the higher renin dose. The lower dose increased angiotensinogen mRNA in the adrenal gland, and in kidney, angiotensinogen mRNA level was unchanged by renin infusion. Angiotensinogen mRNA visualized on Northern blots showed that the number of mRNA species in liver decreased from three in control rats to a single mRNA species after renin infusion. Tissue differences in the size of the major angiotensinogen mRNA species were also apparent. This, together with changes in the total hybridization signal of angiotensinogen mRNA in tissues, suggests that renin differentially affects the different angiotensinogen mRNA transcripts. Results of this study indicate that angiotensinogen gene expression is regulated not only by alterations in levels of circulating angiotensin II but also by other mechanisms, presently unidentified, that are activated by renin infusions.
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PMID:Differential regulation of angiotensinogen transcripts after renin infusion. 884 97

We analyzed the components of the renin-angiotensin system (RAS) in ocular tissues of normal rabbit eyes and compared the results with those measured in rabbit eyes with proliferative vitreoretinopathy and ocular hypertension. Proliferative vitreoretinopathy was induced by injection of human platelets into the vitreous humor, and ocular hypertension was induced by injection of alpha-chymotrypsin into the posterior chamber. Angiotensinogen, renin, angiotensin converting enzyme (ACE), angiotensin II (Ang II), and Ang II receptors were assessed using conventional biochemical techniques. The vascularized tissues of normal eyes contained high renin and ACE activities concomitant with low concentration of angiotensinogen and Ang II. In general, in the ocular humors, the opposite was found. The Ang II receptor density was highest in the uveal tract [range 35-190 fmol/mg protein]. The AT1 receptor subtype predominated [> 80%]. The RAS was only minimally different in the two pathological models except that, in ocular hypertension, the renin activity in the uveal tract was reduced [-50%]. Also, the ratio of AT1 to AT2 receptors changed as compared to control, although the total receptor density remained unaltered. In conclusion, we present evidence for the presence of a complete local RAS in the rabbit eye, which is only marginally affected by the two pathological models studied.
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PMID:The renin-angiotensin system in the rabbit eye. 887 36

Angiotensinogen-deficient mice provide a model to examine the roles of angiotensin II as a renal growth factor in vivo. We monitored nephrogenesis and renovascular development in angiotensinogen-deficient mice from Embryonic Day 13 (E13) to 4 weeks after birth. Northern analysis of homozygote (Atg-/-) mice confirmed the absence of angiotensinogen mRNA in the liver and the kidneys. Embryonic kidneys in Atg-/- mice from E13 to E18 exhibited active nephrogenesis, as also observed in Atg+/- mice and Atg+/+ mice. Furthermore, metanephroi harvested at E12 from Atg-/- embryos showed branching morphogenesis of ureteric bud and tubulogenesis similar to metanephrol from Atg-/- embryos grown with exogenous angiotensin II in serum-free culture. In newborn Atg-/- mice, we observed uniform dilation of the pelvis accompanied by a coarse medulla, which was not noted in Atg+/- or Atg+/+ mice. Hydronephrosis in Atg-/- mice continued, and renal papillae underwent atrophy for the 4 weeks after birth. Another characteristic aspect of the morphology of Atg-/- mice was the thickening of vascular walls as little as 2 weeks after birth. Immunohistochemistry revealed recruitment of renin in hyperplastic vascular smooth muscle cells (VSMC) in Atg-/- mice after 2 weeks. Electron microscopy confirmed that the majority of hyperplastic VSMC contained various sized renin granules with abundant endoplasmic reticulum. In situ hybridization demonstrated that expression of renin mRNA became prominent in parallel with hyperplasia of VSMC, as well as recruitment of renin protein. Furthermore, at 4 weeks, Atg-/- mice expressed alpha-smooth muscle actin in the mesangium, whereas none was ever found in that of Atg+/- mice and Atg+/+ mice. In conclusion, the renin-angiotensin system seems not be essential for nephrogenesis in vivo. Furthermore, hyperplasia of VSMC and expression of the smooth-muscle phenotype in the mesangium are inducible even in the absence of angiotensin II, with hypotension, in vivo.
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PMID:Nephrogenesis and renovascular development in angiotensinogen-deficient mice. 894 Dec 19

Increasing evidence suggests that the renin-angiotensin system (RAS) is not only a potent regulator of blood pressure and fluid and electrolyte homeostasis, but that it also plays an important role in growth and differentiation in development as well as in pathological states. We, therefore, investigated the expression of all components of the RAS in the human embryo and fetus by in situ hybridization or immunohistochemistry. This study is the first to demonstrate the presence of all components of the RAS in very early human development (30-35 days of gestation). Angiotensinogen mRNA is expressed in very high amounts in the yolk sac, liver, and kidney, whereas renin mRNA and angiotensin-converting enzyme are expressed in the chorion, kidney, and heart, thus allowing fetal production of angiotensin II. This effector molecule of the RAS mediates its effects through binding to specific receptor types, AT1 and AT2. Both of these receptors are also expressed very early in development (24 days of gestation), suggesting a role for angiotensin II in organogenesis. Based on the expression pattern of these receptors, angiotensin II likely plays a role in the growth and differentiation of the kidney, adrenal gland, heart, and liver, all organs that are of major importance for the regulation of blood pressure later in life.
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PMID:Early expression of all the components of the renin-angiotensin-system in human development. 895 16

The factors that initiate chronic renal failure in patients with hypertension, diabetes mellitus, and chronic glomerular disease are largely unknown. The likely genetic contribution to ESRD, particularly in African Americans, suggests that linkage analysis may be useful to evaluate the role of candidate genes in the pathogenesis of chronic renal failure. The renin-angiotensin-aldosterone (RAA) axis has been intensively evaluated for its contribution to cardiovascular disease and nephropathy. This study tested for linkage between candidate genes in the RAA axis and chronic renal failure, using 85 African-American sibling pairs (from 65 families) concordant for ESRD. Angiotensinogen was selected because of the putative link between it and mild to moderate essential hypertension and nephrosclerosis; angiotensin-converting enzyme because of its possible contribution to diabetic nephropathy; and renin, the angiotensin II receptor, and kallikrein because of their roles in hypertension and renal perfusion. These candidate loci did not demonstrate linkage to either diabetic or nondiabetic renal disease in this study's collection of sibling pairs. These results suggest that polymorphisms at these RAA axis loci do not make major contributions to the pathogenesis of renal disease in African Americans.
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PMID:Linkage analysis between loci in the renin-angiotensin axis and end-stage renal disease in African Americans. 898 34

Angiotensinogen is the only known substrate for the enzyme renin. Angiotensin II, the end product of the reaction, is an extremely potent vasoconstrictor and a major determinant of salt and water homeostasis. It is also a growth factor. Angiotensinogen has been identified as a non-inhibitory member of the serine proteinase inhibitor family. Although the most abundant source of plasma angiotensinogen is the liver, the use of Northern blotting and reverse transcriptase PCR techniques has confirmed angiotensinogen mRNA expression in a wide range of tissues, including the kidney, brain, vascular tissue, adrenal gland, placenta and leucocytes. The sequencing of the rat and human angiotensinogen genes has increased our understanding of this protein and its role in physiology and the pathogenesis of human disease. Early observations on the regulation of angiotensinogen are now explicable at the molecular level, with the identification of the core promoter, hormone and acute phase responsive elements and tissue-specific enhancers. The role of angiotensinogen in the aetiology of hypertensive disorders has been tested in transgenic animals, and in case-controlled genetic association and linkage studies. This review examines our current understanding of angiotensinogen, in the light of recent advances.
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PMID:Angiotensinogen: molecular biology, biochemistry and physiology. 902 80

We developed a model of spontaneously high human renin hypertension in the rat by producing two transgenic strains, one for human angiotensinogen with the endogenous promoter and one for human renin with the endogenous promoter. Neither transgenic strain was hypertensive. These strains were then crossed, producing a double transgenic strain. The double transgenic rats, both males and females, developed severe hypertension (mean systolic pressure, 200 mm Hg) and died after a mean of 55 days if untreated. The rats had a human plasma renin concentration of 269 +/- 381 (+/-SD) ng angiotensin I (Ang I)/mL per hour, plasma renin activity of 177 +/- 176 ng Ang I/mL per hour, rat angiotensinogen concentration of 1.49 +/- 1 microgram Ang I/mL, and human angiotensinogen concentration of 78 +/- 39 micrograms Ang I/mL (n = 49). Control rats had plasma renin activity of 3.7 +/- 3.9 ng Ang I/mL per hour and rat angiotensinogen of 1.32 +/- 0.16 micrograms Ang I/mL. Angiotensinogen transgene expression by RNase protection assay was ubiquitously present but most prominent in liver. Renin transgene expression was high in kidney but absent in liver. The rats featured severe cardiac hypertrophy, with increased cross section of cardiomyocytes but little myocardial fibrosis. The kidneys showed atrophic tubules, thickened vessel walls, and increased interstitium. Both the angiotensin-converting enzyme inhibitor lisinopril and the specific human renin inhibitor remikiren lowered blood pressure to normal values. Double transgenic mice have been developed that exhibit features quite similar to those described here; their gene expressions are similar. The specificity of rodent and human renin is similarly documented. Although many elegant physiological studies can now be done in mice, rats nevertheless offer flexibility, particularly in terms of detailed cardiac and renal physiology and pharmacology. We conclude that this double transgenic strain will facilitate simultaneous investigation of genetic and pathophysiological aspects of renin-induced hypertension. The fact that human renin can be studied in the rat is a unique feature of this model.
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PMID:High human renin hypertension in transgenic rats. 903 38

Angiotensinogen gene-knockout (Atg -/-) mice lacking angiotensin II exhibit chronic hypotension and an increase in renal renin gene expression. The present study was designed to provide evidence for the possible involvement of neuronal type nitric oxide synthase (N-NOS) at the macula densa in the increased renin production in Atg -/- mice. The enzyme activity of N-NOS was histochemically detected by NADPH diaphorase (NADPHd) reaction combined with N-NOS immunohistochemistry. N-NOS mRNA expression in the renal cortical tissue was determined using reverse transcription-PCR in a semiquantitative manner. The levels of renal renin mRNA were evaluated by Northern blot analysis. In the kidneys of wild-type (Atg +/+) mice, N-NOS activity was localized to the macula densa as reported previously. On the other hand, N-NOS-positive macula densa cells of Atg -/- mice were distributed beyond the original location of the macula densa. They often occupy the entire cross-sectional profiles of the tubules. In addition, Atg -/- mice showed a stronger signal intensity for the enzyme reaction than Atg +/+ mice. The mean total number of N-NOS-positive cells per 100 glomeruli was 6 times higher in Atg -/- mice than in Atg +/+ mice. Semiquantitative reverse transcription-PCR revealed an increase in the N-NOS mRNA level in renal cortical tissue of Atg -/- mice compared with Atg +/+ mice. Furthermore, the selective inhibition of N-NOS activity by 7-nitrondazole significantly decreased the level of renal renin mRNA in Atg -/- mice. These results suggest that increased N-NOS activity at the macula densa is involved a renal renin overproduction in Atg -/- mice.
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PMID:The neuronal isoform of constitutive nitric oxide synthase is up-regulated in the macula densa of angiotensinogen gene-knockout mice. 904 65

Patients with a history of anaphylactic reactions to hymenoptera venom who tolerated the hyposensitization and the sting provocation without problems (n = 10) had angiotensin I (ANG I), angiotensin II (ANG II), angiotensinogen and renin similar to the values found in healthy nonallergic controls (n = 11). In contrast, patients who repeatedly experienced anaphylactic reactions during hyposensitization and who displayed anaphylactic reactions to sting provocation with a living insect (n = 6) showed significantly lower renin (p < 0.05), angiotensinogen (p < 0.05), ANG I (p < 0.05) and ANG II (p < 0.05) plasma levels as compared to healthy nonallergic controls (n = 11). Sting provocation with a living insect induced clinical symptoms of anaphylaxis in all of the 6 patients. A decrease in ANG I was found in 4 of the patients (67%) after provocation as compared to the concentration before the sting challenge. Angiotensinogen decreased in 3 of the patients (50%) whereas renin activity decreased in 2 of the patients (29%). In all cases a decrease in ANG II was noticed (100%). It is concluded that patients at high risk of developing anaphylactic reactions possess a dysfunctional renin-angiotensin system (RAS) which is not stimulated and does not respond appropriately. These findings point to an important role of the RAS as a defense mechanism in response to anaphylactic reactions.
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PMID:The renin-angiotensin system in patients with repeated anaphylactic reactions during hymenoptera venom hyposensitization and sting challenge. 906 11


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