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)

The peptide vasoconstrictor angiotensin II (Ang II), originally described as deriving exclusively from the plasma renin angiotensin system, has now been demonstrated to be produced independently of such sources. Local tissue angiotensin-generating systems are well documented. There is increasing evidence that these locally produced vasoconstrictor peptides may contribute to blood vessel homeostasis, as well as the development of vascular pathologies. Results obtained from pharmaceutical intervention in these systems in humans and animals strongly support this hypothesis. In addition to its vasoconstrictor properties, Ang II acts as a potent biological effector. In vitro both vasoconstrictor peptides appear to modulate the activity of autocrine feedback loops in vascular smooth muscle cells. The activity of these feedback loops in vivo may represent a central mechanism for regulation and phenotypic differentiation of this cell type. The most well-established autocrine feedback loops of vascular smooth muscle cells are constituted by platelet-derived growth factor and transforming growth factor-beta, both of which are influenced by the action of angiotensin II. The effects of the peptide vasoconstrictors on the (auto) regulated feedback loops are of long-term structural importance since both vasoconstrictors (via autocrine growth modulators) may influence the composition of the extracellular matrix of vascular smooth muscle cells. This includes effects on the synthesis and secretion of thrombospondin, fibronectin, tenascin, etc.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Angiotensin II and its effects on vascular structure]. 161 92

The peptide vasoconstrictors angiotensin II (Ang II) and endothelin-1 (ET-1), originally thought to derive exclusively from the plasma renin-angiotensin system and vascular endothelium, respectively, have been demonstrated to be produced independently of such sources. Local tissue angiotensin-generating systems are well documented, and endothelin production has been demonstrated for a variety of nonendothelial cells, including vascular smooth-muscle cells (VSMC). There is increasing evidence from in vitro studies that local production of these vasoconstrictor peptides may contribute to blood vessel homeostasis and the development of vascular pathologies. Results obtained from pharmaceutical intervention in humans and animals of these systems strongly support this hypothesis. In addition to their vasoconstrictor properties, Ang II and ET-1 act as potent biological effectors. In vitro, both vasoconstrictor peptides appear to modulate the activity of autocrine feedback loops in VSMC. The activity of these feedback loops in vivo may represent a central mechanism for regulation and phenotypic differentiation of this cell type. The best-recognized autocrine feedback loops of VSMC are constituted by platelet-derived growth factor and transforming growth factor-beta, both of which are influenced by the action of Ang II and ET-1. Because both vasoconstrictors (via their induction of autocrine growth modulators) may influence the composition of the extracellular matrix of VSMC, the effects of the peptide vasoconstrictors on the (auto-) regulated feedback loops are of long-term structural importance. Ang II and ET-1 promote the synthesis and secretion of the glycoproteins thrombospondin, fibronectin, and tenascin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Peptide vasoconstrictors, vessel structure, and vascular smooth-muscle proliferation. 750 50

During the past decade, experimental and clinical evidence has indicated an important role for the renin-angiotensin system in the progressive destruction of nephrons in a wide variety of chronic renal diseases. Studies have indicated that in the subtotally nephrectomized rat model of progressive glomerulosclerosis, in experimental diabetes mellitus, in the chronic phase of puromycin aminonucleoside-induced nephrotic syndrome and in Heymann's nephritis, angiotensin-converting enzyme (ACE) inhibitors dramatically preserve both nephron structure and function. Clinical studies have similarly noted that chronic administration of ACE inhibitors inhibits progression of renal failure in type I diabetes and type II diabetes as well as primary glomerulopathies, sickle cell nephropathy, systemic lupus erythematosis, chronic pyelonephritis and adult polycystic kidney disease. Current evidence suggests that the beneficial effect of ACE inhibitors is primarily due to inhibition of angiotensin II production, and there is strong suggestive evidence for increases in local intrarenal activation of the renin-angiotensin system in these conditions. In obstructive uropathy, activation of the renin-angiotensin system has also been shown to be an important aspect of the early functional changes and may be of importance in the subsequent generation of interstitial fibrosis. In the obstructed kidney, renin and angiotensinogen production increase and type I angiotensin receptors decrease. Inhibitors of angiotensin II production and angiotensin II action partially reverse the vasoconstriction and the reduced renal blood flow, and abolish the changes in expression of AT1 MRNA induced by obstruction. Studies suggest that the angiotensin-mediated increases in tubulointerstitial fibrosis may be mediated by increased production of transforming growth factor-beta.
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PMID:Angiotensin II-mediated renal injury. 756 81

The peptide vasoconstrictors angiotensin II and endothelin-1, originally described as being derived exclusively from the plasma renin-angiotensin system and vascular endothelium, respectively, have been demonstrated to be produced independently of these sources. Local tissue angiotensin-generating systems are well documented and endothelin production has been demonstrated for a variety of nonendothelial cells, including vascular smooth muscle cells. There is increasing evidence that these locally produced vasoconstrictor peptides may contribute to blood vessel homeostasis, as well as the development of vascular pathologic conditions. Results obtained from pharmaceutical intervention in humans and animals of these systems strongly support this hypothesis. In addition to their vasoconstrictor properties, angiotensin II and endothelin-1 act as potent biologic effectors. In vitro, both vasoconstrictor peptides appear to modulate the activity of autocrine feedback loops in vascular smooth muscle cells. The activity of these feedback loops in vivo may represent a central mechanism for regulation and phenotypic differentiation of this cell type. The most well-established autocrine feedback loops of vascular smooth muscle cells are constituted by platelet-derived growth factor and transforming growth factor-beta, both of which are influenced by the action of angiotensin II and endothelin-1. The effects of the peptide vasoconstrictors on the (auto-) regulated feedback loops are of long-term structural importance, since both vasoconstrictors (via autocrine growth modulators) may influence the composition of the extracellular matrix of vascular smooth muscle cells. This includes effects on the synthesis and secretion of thrombospondin, fibronectin, tenascin, etc. The secretion of extracellular matrix glycoproteins themselves and incorporation into extracellular matrix in vitro appear to be linked to the activity of the autocrine feedback loops: e.g., stimulation of thrombospondin mRNA results in secretion of the glycoprotein only in the concomitant presence of exogenous platelet-derived growth factor, whereas the expression of fibronectin and tenascin may be directed by transforming growth factor-beta. The influence of angiotensin II and endothelin-1 on vascular smooth muscle cell surface receptor expression may represent a secondary mode of action of these vasoconstrictor peptides. Endothelin-1, for instance, can rapidly down-regulate platelet-derived growth factor-alpha receptor mRNA and both angiotensin II and endothelin-1, via induction of transforming growth factor-beta, may interrupt the platelet-derived growth factor based autocrine feedback loop. In vivo, the highly complex interactions between local and systemic vasoconstrictor production, autoregulated feedback loops, and extracellular matrix (which also serves as a reservoir for growth and differentiation modulators) are central to vessel homeostasis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of peptide vasoconstrictors on vessel structure. 848 51

Several systemic or intrarenal networks of cytokines and growth factors can be modulated by the diabetic state. We summarize the status of the renin-angiotensin system in diabetes mellitus and review the evidence of its involvement in the pathogenesis of diabetic nephropathy. Particular emphasis is placed on the nonhemodynamic properties of this vasoactive agent as both a renal growth factor and a profibrogenic peptide. Antagonizing the effects of angiotensin II with converting enzyme inhibitors is an established protective strategy in the management of diabetic nephropathy even in the absence of systemic hypertension. This and other indirect evidence from experimental animal studies suggest that the intrarenal concentration of angiotensin II may be increased as a result of increased synthesis and despite enhanced breakdown, that this peptide participates in the progression of diabetic nephropathy. However, down-regulation of angiotensin type 1 (AT1)-receptors is one of the abnormalities of both tubules and glomeruli in diabetic renal disease. A heightened bioactivation of the intrarenal angiotensin II system is therefore likely but not certain. Studies in cultured proximal tubular and glomerular mesangial cells have disclosed striking similarities between the effects of high glucose-containing medium and of treatment with angiotensin II on the growth properties and the induction of cytokines in these cells. There may also exist additive effects of angiotensin II and high glucose on signal-transduction pathways, such as activation of protein kinase C, although the contractile response to angiotensin II may be blunted by high glucose in mesangial cells. An important downstream mediator of the effects of both angiotensin II and high glucose is the activation of transforming growth factor-beta that can mediate at least some of the hypertrophic and profibrotic effects of either angiotensin II or high glucose in the diabetic kidney.
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PMID:The role of angiotensin II in diabetic nephropathy: emphasis on nonhemodynamic mechanisms. 900 45

The binding of antibodies to podocytic antigens such as the Heymann antigen or aminopeptidase A may lead to the induction of a membranous glomerulonephritis in several species. To study the possible future interactions of antibodies with antigens on these podocytes, epithelial cells from isolated mouse glomeruli were cultured. By indirect immunofluorescence, the cells were positive for cytokeratin, vimentin, desmin, and the ZO-1 protein, a component of the tight junction complex. When rat monoclonal antibodies were used, the cells were also positive for the hydrolases aminopeptidase A and dipeptidyl peptidase IV, and they stained with ASD-33, a monoclonal antibody that recognized an epitope only present on the cell membranes of mouse podocytes. They were negative for the von Willebrand factor and did not stain with a monoclonal antibody (ASD-13) that binds to endothelial cells of glomeruli and peritubular capillaries. By electron microscopy, the cells showed tight junctions but lacked Weibel Palade bodies (endothelium), desmosomes, and cilia (parietal epithelium). The mRNA expression of several components of the renin-angiotensin system was also examined, and some factors indirectly coupled to the renin-angiotensin system component angiotensin II in this podocytic culture by RT-PCR analysis. mRNA Expression for the angiotensin II degrading hydrolase aminopeptidase A and angiotensinogen was found, but this was not found for any other component of this system, such as renin, angiotensin-converting enzyme, or the angiotensin II receptors AT1a, AT1b, and AT2. Low mRNA expression for dipeptidyl peptidase IV was observed. In addition, expression of the growth factors transforming growth factor-beta and interleukin-7, and the extracellular matrix components fibronectin, laminin B2, perlecan, and collagen IV alpha 1, was observed. Given these characteristics, a glomerular epithelial cell culture with features of podocytes in vivo that will allow future studies on the interaction of anti-aminopeptidase A monoclonal antibodies and angiotensin II with aminopeptidase A was established. This is of interest in light of the observation that injection of mice with anti-aminopeptidase A antibodies causes an acute albuminuria.
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PMID:Mouse glomerular epithelial cells in culture with features of podocytes in vivo express aminopeptidase A and angiotensinogen but not other components of the renin-angiotensin system. 917 40

The renin-angiotensin system (RAS) has been implicated in the development of hypertensive glomerulosclerosis. However, there are no experimental findings clearly demonstrating activation of glomerular RAS in hypertensive nephropathy. Using the stroke-prone spontaneously hypertensive rat (SHRSP) as an animal model of hypertensive glomerulosclerosis, we examined the relationship between the sequential changes in urinary albumin excretion (UAE), renal morphology, and glomerular mRNA expression for transforming growth factor-beta (TGF-beta) and fibronectin (FN) and glomerular mRNA levels for RAS components, and determined the effects of the angiotensin II (Ang II) type 1 (AT-1) receptor antagonist (candesartan) and equihypotensive hydralazine on these parameters. In SHRSP, UAE was normal at nine weeks of age and increased by 12 weeks. Plasma renin activity, plasma Ang II concentration, and angiotensin converting enzyme (ACE) activity were not higher in 9- and 12-week-old SHRSP than in WKY. RNase protection assay revealed higher glomerular mRNA levels for angiotensinogen, ACE, and AT-1a and AT-1b receptors in 9-, 12-, and 14-week-old SHRSP than in WKY. The glomerular mRNA levels for TGF-beta and FN in SHRSP were increased from nine weeks of age. SHRSP had a greater glomerulosclerosis index (GSI) at 24 weeks of age than did WKY. Administration of candesartan for two weeks, but not of hydralazine, markedly reduced UAE and normalized mRNA levels for TGF-beta, FN, and RAS components. Candesartan administration for 12 weeks virtually prevented the progression of glomerulosclerosis in rats. We conclude that in SHRSP, RAS activation and increased sensitivity to Ang II in glomeruli play important roles in the progression of glomerulosclerosis.
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PMID:Candesartan prevents the progression of glomerulosclerosis in genetic hypertensive rats. 940 67

Overproduction of transforming growth factor-beta clearly underlies tissue fibrosis in numerous experimental and human diseases. Transforming growth factor-beta's powerful fibrogenic action results from simultaneous stimulation of matrix protein synthesis, inhibition of matrix degradation, and enhanced integrin expression that facilitates matrix assembly. In animals, overexpression of transforming growth factor-beta by intravenous injection, transient gene transfer, or transgene insertion has shown that the kidney is highly susceptible to rapid fibrosis. The same seems true in human disease, where excessive transforming growth factor-beta has been demonstrated in glomerulonephritis, diabetic nephropathy, and hypertensive glomerular injury. A possible explanation for the kidney's particular susceptibility to fibrosis may be the recent discovery of biologically complex interactions between the renin-angiotensin system and transforming growth factor-beta. Alterations in glomerular hemodynamics can activate both the renin-angiotensin system and transforming growth factor-beta. Components of the renin-angiotensin system act to further stimulate production of transforming growth factor-beta and plasminogen activator inhibitor leading to rapid matrix accumulation. In volume depletion, transforming growth factor-beta is released from juxtaglomerular cells and may act synergistically with angiotensin II to accentuate vasoconstriction and acute renal failure. Interaction of the renin-angiotensin system and transforming growth factor-beta has important clinical implications. The protective effect of inhibition of the renin-angiotensin system in experimental and human kidney diseases correlates closely with the suppression of transforming growth factor-beta production. This suggests that transforming growth factor-beta, in addition to blood pressure, should be a therapeutic target. Higher doses or different combinations of drugs that block the renin-angiotensin system or entirely new drug strategies may be needed to achieve a greater antifibrotic effect.
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PMID:Interactions of transforming growth factor-beta and angiotensin II in renal fibrosis. 945

To further define the role of transforming growth factor-beta (TGF-beta) receptors in renal vascular development, detailed immunohistochemical studies of TGF-beta receptor expression were performed from gestational day 15 through adulthood. On gestational day 15, TGF-beta type II receptor immunoreactivity was restricted to perirenal stromal and vascular cells. On gestational day 17 TGF-beta type II receptor immunoreactive stromal cells were observed within the kidney, with the same distribution as stromal alpha-smooth muscle actin and renin immunoreactive cells, and intense stromal TGF-beta type II receptor immunoreactivity continued through postnatal day 5. As vascular development progressed, TGF-beta type II receptor, alpha-smooth muscle actin and renin immunoreactivity became progressively restricted to small renal arteries and arterioles. Expression of TGF-beta type II receptors and renin was very intense in afferent glomerular arterioles during postnatal days 5 to 15, and then became progressively restricted only to juxtaglomerular cells in the mature kidney. TGF-beta type I receptor (ALK-5, ALK-1 and ALK-2) immunoreactivity was not detected in stromal or vascular elements during development or in the mature kidney. Intense TGF-beta type II receptor expression in renal stromal vascular smooth muscle cell precursors and developing blood vessels suggests a role for the TGF-beta type II receptors in the formation of the renal vascular smooth muscle compartment. The continued intense expression in juxtaglomerular cells argues for a role in renin synthesis and/or release. The absence of ALK-5, ALK-1, and ALK-2 in developing vascular smooth muscle and mature juxtaglomerular cells indicates that the canonical view of TGF-beta signaling may not hold in these locations.
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PMID:TGF-beta type II receptor in rat renal vascular development: localization to juxtaglomerular cells. 950 19

Although transforming growth factor-beta (TGF-beta) has been shown to participate in regulating hormone synthesis and release, little is known about involvement of individual human TGF-beta isoforms, TGF-beta1, -beta2, and -beta3, in renin synthesis and release. We examined expression of these TGF-beta isoforms in a 50-year-old man with a Bartter's-like syndrome whose renal biopsy specimen showed hyperplasia of the juxtaglomerular apparatus (GA), mild mesangial hypercellularity, focal tubular atrophy, and interstitial fibrosis. Immunoreactivity for renin and marked expression of TGF-beta2 mRNA were noted in the glomerular arteriole of the JGA, whereas mRNA expression for TGF-beta1 was only slight and that for TGF-beta3 was still more faint. Expression of mRNAs for all 3 TGF-beta isoforms was increased in the fibrotic interstitium. This expression pattern suggests that TGF-beta2 may be involved in inducing renin synthesis and/or release in the glomerular arteriole of the JGA.
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PMID:Increased transforming growth factor-beta2 expression in the glomerular arteriole of the juxtaglomerular apparatus in a Bartter's-like syndrome. 1045 16


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