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)

Angiotensinogen is cleaved by renin and angiotensin-converting enzyme to liberate the potent vasocontrictor peptide angiotensin II. We have recently identified a cis-acting genetic lesion associated with high levels of angiotensinogen mRNA in the testis and salivary gland of Swiss mice. To determine the molecular basis of this mutation, the Swiss angiotensinogen gene was cloned, and its structure was compared to that from a low-expressing strain (BALB/c). I show that a retrovirus-like element belonging to the intracisternal A-particle gene family has been inserted 9 kb upstream from the cap site of the Swiss angiotensinogen gene. This intracisternal A-particle, named IAP-Agt, segregated concordantly with angiotensinogen expression phenotypes in CXB recombinant inbred mice. However, genomic Southern analysis showed that IAP-Agt was present in some, but not all, inbred laboratory mouse strains displaying high levels of angiotensinogen gene expression. On the basis of this evolutionary evidence, it is unlikely that IAP-Agt is the cause of the angiotensinogen mutation. It is intriguing that Ren-2, the duplicated mouse renin gene, is expressed to high levels in the male salivary gland and also contains a transposed intracisternal A-particle genome.
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PMID:The angiotensinogen gene of Swiss mice is closely linked to a retrovirus-like element. 217 14

The present study examined the presence and cellular distribution of angiotensinogen, the precursor to the angiotensin peptides, in the ovary of the normal cycling rat by immunocytochemistry. Angiotensinogen staining was present in the granulosa cells of maturing follicles and to a lesser extent in those undergoing atresia. Staining was not seen in the granulosa cells of primordial or early primary follicles. In maturing follicles intense staining for angiotensinogen was confined to the antral cell layers, cells of the cumulus oophorus and in the follicular fluid. Strong immunostaining was also seen in the germinal epithelium covering the ovary. Lighter angiotensinogen staining was observed in some parts of the cortical and medullary stroma and occasionally in corpora lutea. No variation in the intensity or pattern of angiotensinogen staining was observed throughout the estrous cycle. Comparison of the distribution of angiotensinogen with the previously described localization of renin, AII, angiotensin converting enzyme and AII receptors, suggests that there are a number of intra-ovarian sites at which AII could be produced.
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PMID:The immunocytochemical localization of angiotensinogen in the rat ovary. 220 93

In vitro release of renin, angiotensinogen and aldosterone was studied in control (CT) and nephrotic rats. Nephrotic syndrome (NS) was induced by a single injection of puromycin aminonucleoside (PA). The in vitro systems used were: renal cortical slices (RCS), liver slices (LS) and adrenal glands, all incubated in Krebs-Ringer buffer. Renal renin content (RRC) and isoproterenol-induced renin secretion (RS) also were studied. RS, RRC and angiotensinogen release were measured indirectly by radioimmunoassay (RIA) of angiotensin I (ANG I); aldosterone was estimated by direct RIA. Basal RS was not modified in NS: 385 +/- 196 (CT) vs 344 +/- 149 ng ANG I/mg protein/h (NS), p greater than 0.05. Isoproterenol increased RS significantly in both CT and NS groups: 535 +/- (CT) and 685 +/- 231 ng ANG I/mg protein/h (NS) (p less than 0.05 vs. basal RS). RRC was similar in both groups: 2.17 +/- 0.62 (CT) vs 2.05 +/- 0.49 micrograms ANG I/mg protein/h (NS), p greater than 0.05. Angiotensinogen release from LS increased in nephrotic rats from 10 +/- 3.2 (CT) to 12 +/- 1.9 pmoles angiotensinogen I/mg tissue/2h (NS), p less than 0.05. Aldosterone release increased markedly from adrenal glands of rats with NS (1649 +/- 1111 pg aldosterone/mg tissue/h) with respect to control rats (257 +/- 85), p less than 0.05 In vitro studies were performed six days after PA-injection, when nephrotic rats had ascitis, edema, proteinuria, hypoproteinemia, hypercholesterolemia, hypertriglyceridemia, low sodium and aldosterone excretion, low levels of plasma angiotensinogen and high levels of plasma renin and aldosterone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pathophysiology of experimental nephrotic syndrome induced by puromycin aminonucleoside in rats. II. In vitro release of renin, angiotensinogen and aldosterone. 226 44

Angiotensinogen, the precursor of the biologically active peptide angiotensin II, is known to be synthesized in the liver and to be localized in plasma, constituting the circulating renin-angiotensin (R-A) system. Recent animal studies have provided evidence for the local generation of angiotensinogen within tissues, independently of the circulating R-A system. To determine the sites of angiotensinogen synthesis in human tissues, we tested for the presence of angiotensinogen and its mRNA in various organs. Messenger RNAs extracted from the liver, kidneys, heart, and brain were all hybridized with human-angiotensinogen complementary DNA. By using a monoclonal antibody generated by in vitro immunization of spleen cells with the synthetic peptide, we first confirmed that the antibody detected only angiotensinogen on immunoblots. In immunohistochemical studies, intense immunoreactivity was found in atrial muscle and in the muscle fibers of the conduction system. The ventricular working myocytes were not stained. Less intense staining was observed in the glomerular tufts of the kidneys, in a few hepatocytes and Kupffer cells, and in the bile duct epithelium of the liver. Thus we demonstrated that angiotensinogen is also synthesized in extrahepatic tissues, including the heart, and that it is localized mainly in the specific cells of the heart. This suggests that the tissue R-A system plays an important role in the human heart.
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PMID:[Angiotensinogen: gene expression and protein localization in human tissues]. 236 77

Chorionic tissue is one of the major extrarenal sites of renin production, and as such, cultured chorionic cells are a potential model for in vitro studies of renin biosynthesis and regulation. Human chorionic cells were isolated from four chorions and maintained in tissue culture for a total of eight subcultures. Total renin production was considerable in the primary cultures, but fell gradually with successive passages. The cells could be frozen and thawed without losing their ability to divide or produce renin. Both the primary cultures and the subcultures contained a single type of elongated cell containing abundant rough endoplasmic reticulum and myofibrils, but no renin granules, suggesting that the cells had smooth muscle-like features. Immunocytochemistry indicated that they contained both renin and prorenin. The renin produced by the chorionic cells was not stored within the cells, but was released rapidly into the medium. More than 95% of the renin produced was prorenin, which, after activation, had biochemical and immunological properties similar to those of pure human renin. The cells contained a renin mRNA that had the same size as that for renal renin (1.6 kilobases), confirming the synthesis of renin by these cells. The cells were also examined for the presence of other components of the renin-angiotensin system. Angiotensinogen and angiotensin I were not detected, but angiotensin-converting enzyme was present in extracts of primary and secondary cultured cells. beta hCG and progesterone were also found in the medium of primary culture. However, the production of beta hCG and progesterone fell after the primary culture, and beta hCG and progesterone were indetectable in secondary and tertiary cultures, respectively. These experiments suggest that these two hormones do not influence renin synthesis or vice versa. Thus, these cultures of human chorionic cells synthesized considerable quantities of prorenin and can provide a permanent source of nonrenal prorenin-producing cells.
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PMID:Isolation and characterization of renin-producing human chorionic cells in culture. 246 85

Angiotensinogen is the precursor of biologically active peptide angiotensin II and its hepatic synthesis is increased by the induction of acute inflammation. Studies were carried out to know whether the rise in plasma angiotensinogen is actually involved in the activity of the renin-angiotensin system during acute inflammation. The plasma level of angiotensinogen in rats was increased to 2.5 times the normal level 16 h after the induction of acute inflammation by administration of lipopolysaccharide (LPS). The plasma renin concentration (PRC) was decreased to about 40% of the normal level concomitantly with a reduction of plasma renin activity (PRA) at 4 h after LPS administration. In contrast, 16 h after LPS injection, when plasma angiotensinogen showed a high level and PRC had recovered to the normal range, PRA was increased to 1.7 times the normal level. These results indicate that acute inflammation induced by LPS causes a biphasic change in the generation of angiotensin I, i.e., an early decrease depending upon the reduction of PRC and later increase depending upon elevation of the angiotensinogen concentration.
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PMID:Changes in activity of the renin-angiotensin system of the rat by induction of acute inflammation. 264 7

Angiotensinogen in plasma is of hepatic origin, but many organs possess the ability to synthesize this protein because messenger RNA for angiotensinogen is widely distributed in the body. The cell types responsible for the extrahepatic synthesis of angiotensinogen remain to be identified. To examine whether renin-containing cells synthesize angiotensinogen, we have utilized a polyclonal antibody to angiotensinogen and immunoprecipitated metabolically labeled cells of two neuroblastomas known to contain renin. The results indicate that the cell line Neuro 2a synthesizes and releases a protein with a molecular mass of 57 kDa that is specifically recognized by the angiotensinogen antibody, indicating that Neuro 2a synthesizes angiotensinogen. Similarly, the cell line NB41A3 was also found to synthesize a protein specifically recognized by the antibody to angiotensinogen.
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PMID:Synthesis of angiotensinogen by renin-containing neuroblastomas. 266 5

An inactive form of renin in human plasma is the biosynthetic precursor, prorenin. The cat is a good animal model for studies of inactive renin. The gene for human renin contains sequences homologous to the glucocorticoid consensus sequence. The response of cat plasma (active and inactive renin) and of angiotensinogen to administration of dexamethasone (0.5 mg/kg im, daily) was studied in ketamine-sedated cats (20 mg/kg im). Inactive renin increased by twofold after 7 days of dexamethasone (P less than 0.01). After a 7-day recovery period, it returned to base line. Active renin did not change. Angiotensinogen fell by 35% (P less than 0.01). The time course of the selective increase of plasma inactive renin showed that inactive renin began to rise after 2 days, peaking after 5 days. Ketamine alone induced inactive renin to rise slightly but significantly (P less than 0.05), although the magnitude of the increment was much less than that observed in ketamine-sedated cats receiving dexamethasone (P less than 0.01). Active renin did not change, whereas angiotensinogen was reduced by 25% (P less than 0.01). Our findings support the hypothesis that glucocorticoids might have a selective role in the synthesis and/or secretion of the precursor of renin, at least in the cat.
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PMID:Stimulation of plasma inactive renin by dexamethasone in the cat. 269 58

To define whether intrarenal renin and angiotensinogen synthesis and distribution are affected by angiotensin-converting enzyme (ACE) inhibition, a control group of adult, male Wistar-Kyoto rats (n = 7) was compared with a group of rats treated with enalapril (n = 8) for 5 days. Kidney renin and angiotensinogen mRNA levels were detected by Northern and dot blot analysis, using full-length rat renin and angiotensinogen cDNAs. Renin mRNA levels in the enalapril-treated group were 4.6-fold higher than in the control group (P less than 0.05). Angiotensinogen mRNA levels were not significantly different. The intrarenal distribution of renin assessed by immunocytochemistry was markedly different between the two groups of rats. Whereas in the control kidney renin was localized in a juxtaglomerular position, in the kidneys from enalapril-treated rats, renin immunoreactivity of the afferent arteriole extended well beyond the juxtaglomerular loci in the direction of the interlobular artery. The percent of afferent arteriolar length immunostained for renin was higher in the enalapril-treated (53 +/- 17%) than in the control (33 +/- 15) group. Similarly, the ratio of immunostained juxtaglomerular apparatuses (JGA) over total number of JGA and the ratio of immunostained arteries over total number of arteries were higher in the enalapril-treated (0.84 +/- 0.017; 0.68 +/- 0.03) than in the control (0.67 +/- 0.034; 0.43 +/- 0.045) group (P less than 0.05). We conclude that chronic ACE inhibition enhances intrarenal renin synthesis and increases renin expression upstream from the glomerulus and in new sites in blood vessels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renin and angiotensinogen gene expression and intrarenal renin distribution during ACE inhibition. 283 9

The expression of messenger (m)RNA for renin, angiotensinogen and atrial natriuretic factor (ANF) was investigated in rats on different sodium intakes. Messenger RNA was measured by a radiodensitometric hybridization assay. In the high-sodium state, renal renin mRNA decreased, but it increased in the low-sodium state. A further increase in renin mRNA was seen in the low-sodium state after captopril administration. Angiotensinogen mRNA levels in the liver, kidney and brain were altered by varying sodium intake. In the high-sodium state angiotensinogen mRNA decreased, but in the low-sodium state it increased. After treatment with captopril, angiotensinogen mRNA levels decreased in the liver and kidney. Angiotensinogen mRNA showed tissue specificity for expression, especially in the brain. Atrial ANF mRNA levels changed slightly with different levels of sodium intake.
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PMID:Effect of changes in sodium balance on renin, angiotensinogen and atrial natriuretic factor messenger RNA levels in rats. 297 65


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