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)

The cytokine interleukin-1 (IL-1) has a variety of effects in the kidney involving induction of nephritis and renal injury. In addition, recent reports suggest that IL-1 regulates natriuresis and renin secretion in the kidney. To examine the potential sites of action of IL-1 in the kidney, we used iodine-125-labeled recombinant human interleukin-1 alpha ([125I]IL-1 alpha) to identify and characterize IL-1 receptors in crude membrane preparations of mouse (C57BL/6) kidney. The binding of [125I] IL-1 alpha was linear over a broad range of membrane protein concentrations, saturable, reversible, and of high affinity, with an equilibrium dissociation constant (Kd) of 66 +/- 10 pM and a maximum number of binding sites of 1.04 +/- 0.24 fmol/mg protein. In competition studies, recombinant human IL-1 alpha, recombinant human IL-1 beta, and a weak IL-1 beta analog (IL-1 beta+) inhibited [125I]IL-1 alpha binding to mouse kidney in parallel with their relative bioactivities in the T-cell comitogenesis assay, with inhibitory binding affinity constant (Ki) values of 28 +/- 19, 53 +/- 23, and 5560 +/- 2098 pM, respectively; rat/human CRF and human tumor necrosis factor had no effect on [125I]IL-1 alpha binding. In autoradiographic studies, IL-1 receptors were heterogeneously distributed in the kidney, with significantly higher densities present in the medulla than in the cortex. To study the effects of endogenous IL-1 in modulating [125I]IL-1 alpha-binding sites in kidney, we injected 30 micrograms of the bacterial endotoxin lipopolysaccharide (LPS) to mice ip. Autoradiographic studies demonstrated substantial decreases in [125I]IL-1 alpha binding in both the kidney cortex (control, 34.7 +/- 6.2 fmol/mg tissue equivalent; LPS, 11.3 +/- 0.3; P less than 0.05) and medulla (52.7 +/- 8.1 vs. 26.0 +/- 1.0; P less than 0.05) 24 h after injection of LPS. Saturation studies in whole kidney homogenates demonstrated that the LPS-induced decrease in [125I]IL-1 alpha binding was primarily due to a down-regulation of IL-1 receptors (i.e. decrease in the maximum number of binding sites). The identification of IL-1 receptors in kidney with characteristics similar to those of IL-1 receptors in the brain-endocrine-immune axis provides further support for a physiological role for IL-1 in regulating renal function.
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PMID:Interleukin-1 receptors in mouse kidney: identification, localization, and modulation by lipopolysaccharide treatment. 182 79

Cytokines such as tumor necrosis factor (TNF) and interleukin-1 (IL-1) are not only immunoregulatory polypeptides, but may have endocrine functions. We have studied the direct effects of recombinant and purified TNF and IL-1 on renin secretion using both static incubations and perifusions of rat renal cortical slices. Ultrapure human IL-1 (hIL-1) at concentrations as low as 5 U/ml (3 X 10(-12) M) significantly stimulated renin secretion (control, 98 +/- 4%; hIL-1, 153 +/- 13%; P less than 0.01). TNF similarly induced renin release [control, 97 +/- 6%; TNF (10 U/ml), 151 +/- 13%; P less than 0.005]. TNF and recombinant human IL-1 beta (rhIL-i beta) also blocked the inhibitory actions of angiotensin-II (AII) on renin release [control, 100 +/- 3%; AII (2 X 10(-7) M), 80 +/- 5%; AII plus TNF (20 U/ml), 102 +/- 7%; AII plus rhIL beta (10 U/ml), 106 +/- 6%; both P less than 0.02 vs. AII]. A cyclooxygenase (CO) blocker, meclofenamate (M), which does not significantly alter basal renin release, attenuated the TNF- and rhIL-1 beta-induced renin secretion [TNF (20 U/ml), 132 +/- 11%; TNF plus M (5 X 10(-5) M), 100 +/- 3% (P less than 0.01); rhIL-1 beta (10 U/ml), 135 +/- 9%; rhIL-1 beta plus M, 105 +/- 10% (P less than 0.05)]. The stimulatory effects of TNF and IL-1 on renin were reversible. These results suggest that IL-1 and TNF are renin secretagogues and can also block the inhibitory actions of AII on renin. Since the effect of TNF and IL-1 on renin can be blocked by a (CO) inhibitor, the studies indicate a role of prostaglandins in their action. Therefore, locally produced TNF and IL-1 may play an important paracrine role in regulation of the renin-angiotensin system.
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PMID:Tumor necrosis factor and interleukin-1 may regulate renin secretion. 210 86

After administration of the cytokines interleukin 1 (IL1), tumor necrosis factor (TNF), interleukin 2 and interleukin 6 to laboratory animals or humans, plasma levels of glucocorticoids are elevated. This effect is mediated by activation of the hypothalamic-pituitary unit. IL1 and TNF inhibit aldosterone production by rat adrenocortical cells in vitro and stimulate renin release by rat renal cortical cells. Administration of IL1 or TNF in rats suppresses hypothalamic-pituitary-thyroid function, whereas IL1 acts at the level of the brain and the gonads to interfere with gonadotropin and sex steroid secretion. During stimulation of the immune system (e.g. during infectious diseases), peculiar alterations in hormone secretion occur (hypercortisolism, hyperreninemic hypoaldosteronism, euthyroid sick syndrome, hypogonadism). The role of cytokines in these alterations remains to be established.
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PMID:Cytokines and the hypothalamic-pituitary-adrenal axis. 228 99

We hypothesized that increased levels of blood cytokines occur in brain-dead patients, and that these cytokines are responsible for some of the endocrine and/or acute-phase reactant abnormalities found in these patients. We measured blood levels of cytokines, hormones, and acute-phase reactants in 18 brain-dead potential organ donors at the moment of establishing the legal diagnosis of brain death and compared them with levels found in a control group. Although interleukin-1 beta (IL-1 beta) and tumor necrosis factor-alpha (TNF-alpha) levels were within the normal range, interleukin-6 (IL-6) levels were clearly above the normal range in all patients (median, 1,444 pg/mL; range, 75 to 11,780). In the brain-dead group, total thyroxine (tT4), free T4 (fT4), triiodothyronine (T3), thyrotropin (TSH), dehydroepiandrosterone sulfate (DHEA-S), testosterone, albumin, Zn, and osteocalcin levels were decreased, T3 resin uptake index (T3 RUI), corticotropin (ACTH), cortisol, 11-deoxycortisol (11-DOC), 17-hydroxyprogesterone (17-OHPr), aldosterone, luteinizing hormone, and follicle-stimulating hormone levels were normal, and reverse T3 (rT3), renin, and C-reactive protein (CRP) levels were increased. Multiple regression analysis demonstrated significant interrelations between IL-6 and T4, T3, testosterone, and CRP. We also studied the evolution of some of these parameters in four patients with severe head injury who finally developed brain death. IL-6 levels on admission to the intensive care unit (ICU) were above the normal limits, as in other patients with cranial trauma, but when the patients developed brain death, there was a pronounced increase in IL-6 levels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Blood levels of cytokines in brain-dead patients: relationship with circulating hormones and acute-phase reactants. 754 Feb 49

Cytokines modulate hormone expression in many cell types, including the expression of renin in juxtaglomerular cells. However, the effect of cytokines on the expression of renin from extrarenal cells is unknown. In this paper, we have examined whether tumor necrosis factor-alpha (TNF alpha) and interleukin-1 beta (IL-1 beta) modulate the release of renin from human decidual cells. Continuous exposure of primary decidual cell cultures from term pregnancies to TNF alpha and IL-1 beta caused dose-dependent inhibition of renin release. The maximal inhibitions by TNF alpha and IL-1 beta were 75.5% and 55.2%, respectively, and the half-maximal effective doses of TNF alpha and IL-1 beta were 30 and 1.1 pmol/L, respectively. The decrease in renin release by the cytokines was statistically significant on days 2-5 (P > 0.001 at each time) and was accompanied by inhibition of renin synthesis and renin messenger ribonucleic acid levels. The renin messenger ribonucleic acid levels in cells exposed for 4 days to TNF alpha (50 ng/mL) or IL-1 beta (50 pg/mL) were 58.0% and 37.7% less than those in control cells, respectively. As decidual macrophages express TNF alpha and IL-1 beta, the results of this study strongly suggest a paracrine role for cytokines in the regulation of decidual renin expression. The effect of these cytokines on renin expression in decidual cells is opposite that in juxtaglomerular cells.
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PMID:Tumor necrosis factor-alpha and interleukin-1 beta inhibit the synthesis and release of renin from human decidual cells. 782 11

Investigations have been carried out to determine if the cytokine tumor necrosis factor-alpha (TNF alpha), a putative intraovarian regulator, plays a role in the regulation of the ovarian prorenin-renin-angiotensin system. Addition of TNF alpha to cultured bovine thecal cells resulted in a dose-dependent inhibition of LH- or 8-bromo-cAMP-stimulated production of prorenin and renin by the cells in a noncytotoxic manner. No clear inhibitory effect on progesterone production was noted. There was no inhibition of LH- or forskolin-stimulated cAMP formation by TNF alpha. The time-course experiment with TNF alpha revealed that the synthesis, rather than the secretion, of prorenin was inhibited. Also, it was evident that to observe a maximal inhibitory effect, it was necessary to add TNF alpha either before or together with LH. With the increasing delay in the addition of TNF alpha relative to the time of addition of LH, the extent of inhibition gradually decreased, and TNF alpha added 6 h after the addition of LH failed to produce any inhibitory effect. The results obtained permit us to conclude that TNF alpha can counterregulate LH-stimulated prorenin production by thecal cells in culture. The TNF alpha-induced lesion appears to be located at an early step of the biosynthetic pathway of prorenin, which is distal to the activation of LH receptor-coupled adenylate cyclase. Thus, this cytokine appears to be an important intraovarian regulator of prorenin production, a process that is under the stimulatory control of the pituitary gonadotropin.
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PMID:Effects of tumor necrosis factor-alpha on luteinizing hormone-stimulated prorenin production by bovine ovarian thecal cells in vitro. 824 73

A number of clinical states have been described where there are derangements or discrepancies between renin-angiotensin and aldosterone secretion. We have studied the potential effect of some cytokines or growth factors (peptide regulatory factors) on this system in vitro. Both tumor necrosis factor/cachectin and interleukin I are potent regulators acting as renin secretagogues and inhibitors of aldosterone synthesis. These actions are mediated by prostaglandin cyclooxygenase products and their actions mimic the syndrome of hyperreninemic hypoaldosteronism in critical illness. Insulin and insulin-like growth factor I are also renin secretagogues in vitro However in a diabetic model (streptozotocin rat), there is resistance to both agonists as well as enhanced feedback suppression to angiotensin. A third peptide, transforming growth factor (TGF beta) has even more complex actions, acting as a secretagogue at low doses (10(-12) M) but inhibiting renin at higher doses. TGF beta production is increased in the diabetic state so that this peptide as well as the insulin family may be involved in hyporeninemic hypoaldosteronism.
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PMID:Paracrine regulation of the renin-aldosterone system. 848 48

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.
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PMID:Mechanisms for inducible control of angiotensinogen gene transcription. 861 88

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.
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PMID:Tumor necrosis factor activates angiotensinogen gene expression by the Rel A transactivator. 861 56

Previous studies from our laboratories demonstrated that human decidual macrophages and peripheral mononuclear cells express renin. In the present study, we found that U-937 monocytes, induced to differentiate into macrophage-like cells by treatment with phorbol dibutyrate (PDBU), express renin mRNA and release renin (95%, of which is in the form of prorenin). Treatment of these PDBU-exposed cells with dibutyryl-cAMP (1 mM) caused a 20-fold increase in renin mRNA and a 10-fold increase in prorenin release. Forskolin (10 microM), an activator of adenylyl cyclase, and terbutaline (100 microM), a beta2-adrenergic agonist known to increase cAMP levels, also increased renin mRNA and prorenin release. The secretory response to terbutaline was potentiated by the type IV cyclic AMP-phosphodiesterase (PDE) inhibitor Ro 20-1724 (50 microM). Angiotensin II agonist inhibited the stimulatory effect of terbutaline on renin secretion as did the cytokines tumor necrosis factor-alpha and lipopolysaccharide plus interferon-gamma. Since other studies have shown that U-937 cells possess beta2-adrenergic receptors and express mainly the type IV PDE, the present findings strongly suggest that beta-adrenergic receptors in mononuclear cells are coupled to renin expression via the cAMP transduction pathway. The results support a possible role for the renin-angiotensin system in macrophage function and suggest potential autocrine regulatory mechanisms in prorenin expression.
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PMID:Beta-adrenergic regulation of renin expression in differentiated U-937 monocytic cells. 925 63


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