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:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine the organ distribution of production of the three endothelin (ET) isopeptides, we have developed three ribonuclease protection assays specific for the messenger RNAs (mRNAs) of rat ETs 1, 2, and 3.12 organs from adult Sprague-Dawley rats were examined: heart, lung, liver, spleen, kidney, stomach, small intestine, large intestine, testis, muscle, salivary gland, and brain. The mRNA for ET1 was five times more abundant in the lung than in any other organ studied, moderate expression was seen in the large intestine, and lower levels of mRNA were detected in each of the other organs examined. ET2 was expressed at high level in both large and small intestine and at low level in stomach, muscle, and heart, but ET2 mRNA could not be detected elsewhere. ET3 mRNA was found in all organs, particularly in small intestine, lung, kidney, and large intestine. Because of reports suggesting that ETs might be involved in the hypoperfusion and hypofiltration observed in postischemic kidneys, we have also studied levels of mRNA in kidneys that had previously been subjected to 25 or 45 min of clamping of the renal pedicle. At 6 h after 45 min of ischemia, ET1 mRNA increased to a peak of 421 +/- 69% (mean +/- SEM, n = 3) of that in a standard renal RNA preparation. By contrast, ET3 mRNA decreased in the postischemic organ, falling to a value of 19 +/- 2% of standard at the same time point. The effects of ischemia on ET1 and ET3 mRNAs were long-lasting, with elevation of ET1 and depression of ET3 persisting for days. ET2 mRNA remained undetectable throughout. These findings (a) support a role for ET1 in postischemic renal vascular phenomena and (b) demonstrate a situation in which the expression of ET isoforms is clearly subject to differential regulation.
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PMID:Organ distribution of the three rat endothelin messenger RNAs and the effects of ischemia on renal gene expression. 152 10

A role for endothelin in malignant phase hypertension has been suggested on the basis of reported increases of circulating plasma immunoreactive endothelins in animal models. Recently, a hypertensive rat model that exhibits a genetically determined tendency for developing spontaneous onset malignant hypertension has been described. Expression of the three genes endothelin-1, endothelin-2, and endothelin-3 was quantified in the kidney by specific RNase protection assays in rats with established malignant hypertension, in rats with benign hypertension with and without a genetic susceptibility to malignant hypertension, and in normotensive Sprague-Dawley rats. Endothelin-1 mRNA levels were significantly elevated in the group with malignant hypertension compared with the other three groups. For determination of whether endothelin-1-mediated effects were crucial in the transition from benign to malignant phase hypertension, an oral nonspecific combined endothelin-A and endothelin-B receptor antagonist (bosentan) was given to hypertensive rats susceptible to malignant hypertension. No hypotensive effects were observed, and no significant difference in the incidence of malignant hypertension was observed between treated and control groups. In conclusion, although increased endothelin-1 mRNA expression was found in kidney tissue from rats developing malignant hypertension, blockade of endothelin-1-mediated effects did not prevent the transition from benign phase hypertension. Hence, increased renal endothelin-1 expression in this model of malignant hypertension does not appear to have a causative role and may simply reflect cellular damage and ischemia.
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PMID:Endothelin in the kidney in malignant phase hypertension. 749 Jan 50

Nitric oxide can act as a neurotransmitter and a retrograde modulator of synaptic transmission, but uncontrolled nitric oxide synthase activity has been associated with neural degeneration. Although earlier studies using immunohistochemistry, in situ hybridization, and NADPH-diaphorase staining had suggested that nitric oxide synthase is not expressed in the CA1 neurons of the hippocampus, we have recently demonstrated that NADPH-diaphorase activity can be detected in CA1 neurons of the hippocampus. To confirm that this diaphorase activity reflects nitric oxide synthase, we have developed a more sensitive in situ hybridization procedure, and an RNase protection assay to detect message for constitutive nitric oxide synthase, the form constitutively expressed in many neurons. Message for constitutive nitric oxide synthase is expressed in the hippocampus, and it is localized to neural cell layers CA1, CA3, the dentate gyrus and some displaced neurons, but not to CA2. Expression of constitutive nitric oxide synthase message in the CA1 region was lost when pyramidal neurons died due to transient forebrain ischemia, supporting the conclusion that CA1 pyramidal cells express constitutive nitric oxide synthase. Although constitutive nitric oxide synthase message is strongly expressed in CA3 and the dentate gyrus, there is little diaphorase activity in these cells, suggesting that there may be post-transcriptional controls that limit constitutive nitric oxide synthase expression in some cells. Message for constitutive nitric oxide synthase is also present in a number of other regions, including the amygdala, several hypothalamic nuclei, the cerebellum, the olfactory bulb, two distinct regions of the perirhinal cortex, the subthalamic nuclei, a neuronal layer in the retrosplenial granular cortex, the lateral geniculate nucleus, the presubiculum, the inferior colliculus, the superior colliculus, the pedunculopontine tegmental nucleus, and scattered individual neurons in the cortex, hippocampus and brainstem. These studies support a role for nitric oxide in multiple regions of the central nervous system. In particular, nitric oxide synthase, the enzyme responsible for the synthesis of nitric oxide, is expressed in the CA1 region of the hippocampus, where there is evidence that nitric oxide may play a major role in long-term potentiation. CA1 hippocampal neurons are an example of a population of neurons that express constitutive nitric oxide synthase but are very sensitive to excitotoxicity and ischemic insults.
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PMID:Expression of the neural form of nitric oxide synthase by CA1 hippocampal neurons and other central nervous system neurons. 753 83

Inflammation and ischemia--reperfusion tissue injury are important pathophysiologic processes with a wide spectrum of clinical presentations; the enzyme xanthine dehydrogenase/oxidase (XDH/XO) is thought to play a key role in ischemia--reperfusion injury. Recent studies have shown the transcriptional regulation of XDH/XO by cytokines (Dupont et al., 1992, J. Clin. Invest. 89, 197-202). In the present study, the 5' structure of the XDH/XO gene and characterization of its promoter are undertaken providing an initial step to further elucidate the regulatory mechanism(s) of this enzyme. XDH/XO cDNA from rat bone marrow macrophage has been isolated and used to screen a rat genomic library in order to identify and characterize the promoter of the XDH/XO gene. By Southern analysis, XDH/XO was found to be a single copy gene in the rat genome. Primer extension, RNase protection, and anchor-PCR studies indicate the presence of multiple start sites within a 65 bp window located some 20-85 bp upstream of the translation initiator (ATG). Functional studies of the sequences up to 116 nt upstream of the translational start site, which encompasses the several transcriptional start sites, indicate that this region is sufficient to drive the expression of a luciferase reporter gene and is presumed to represent the promoter. Neither a TATA box nor a GC-rich region are present in close proximity to any of the transcriptional start sites; however, sequences with homology to known initiator elements are found within this 116 bp fragment. Several possible regulatory elements, including a NF-IL6 motif, are also located upstream of the transcriptional start site. This study represents the first description of the XDH/XO promoter from a vertebrate system.
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PMID:Identification of the rat xanthine dehydrogenase/oxidase promoter. 820 9

In many diseases, tissue hypoxia occurs in conjunction with other inflammatory processes. Since previous studies have demonstrated a role for leukocytes in ischemia/reperfusion injury, we hypothesized that endothelial hypoxia may "superinduce" expression of an important leukocyte adhesion molecule, E-selectin (ELAM-1, CD62E). Bovine aortic endothelial monolayers were exposed to hypoxia in the presence or absence of tumor-necrosis factor alpha (TNF-alpha) or lipopolysaccharide (LPS). Cell surface E-selectin was quantitated by whole cell ELISA or by immunoprecipitation using polyclonal anti-E-selectin sera. Endothelial mRNA levels were assessed using ribonuclease protection assays. Hypoxia alone did not induce endothelial E-selectin expression. However, enhanced induction of E-selectin was observed with the combination of hypoxia and TNF-alpha (270% increase over normoxia and TNF-alpha) or hypoxia and LPS (190% increase over normoxia and LPS). These studies revealed that a mechanism for such enhancement may be hypoxia-elicited decrements in endothelial intracellular levels of cAMP (<50% compared with normoxia). Addition of forskolin and isobutyl-methyl-xanthine during hypoxia resulted in reversal of cAMP decreases and a loss of enhanced E-selectin surface expression with the combination of TNF-alpha and hypoxia. We conclude that endothelial hypoxia may provide a novel signal for superinduction of E-selectin during states of inflammation.
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PMID:Hypoxia enhances stimulus-dependent induction of E-selectin on aortic endothelial cells. 869 47

The aim of the present study was to test the hypothesis that the vasoconstrictive peptide endothelin-1 is upregulated in ischemia and reperfusion in skeletal muscle. Sixty-eight Wistar rats were included in the series: 12 served as controls that did not undergo the procedure, 16 underwent sham operations, and 40 were subjected to a modified tourniquet ischemia for 3 hours and 20 minutes. Of the 40 rats, 16 were killed at the end of the ischemic period, 16 underwent reperfusion for 2 hours, and eight underwent reperfusion for 72 hours. Areas of necrosis were measured by morphometry in hematoxylin and eosin-stained cross sections of the anterior tibial muscles that had been reperfused for 72 hours. Sections from the controls, the muscles that had not been reperfused, and the reperfused muscles were immunostained for endothelin-1. Serum endothelin-1 levels in blood samples from the aorta were determined with a commercial enzyme immunoassay kit. The anterior tibial muscle was harvested for preproendothelin-1 mRNA analysis with RNase protection assay. The hematoxylin and eosin-stained sections showed extensive necrosis with an acellular core of no reperfusion. The muscular core demonstrated weak immunostaining for endothelin-1 in all sections, a subfascial narrow brim of fibers showed enhanced immunoreactivity at the end of ischemia, and all fibers outside the core stained by 2 hours after the start of reperfusion. After 72 hours of reperfusion, the fibers outside the core stained positive in a checkerboard-like pattern. There were no differences in serum endothelin-1 levels between the groups. Preproendothelin-1 mRNA analysis with RNase protection assay showed 2-fold upregulation at the end of ischemia and 4-fold upregulation after 2 hours of reperfusion (p = 0.001). This study supports the hypothesis that both ischemia and reperfusion upregulate endothelin-1 in skeletal muscle.
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PMID:Endothelin-1 is upregulated during skeletal muscle ischemia and reperfusion. 956 85

We examined effects of ischemia and asphyxia on levels of prostaglandin H synthase-1 (PGHS-1) and prostaglandin H synthase-2 (PGHS-2) in piglet brain. Ischemia was induced by increasing intracranial pressure and asphyxia was induced by turning off the respirator. Duration of anoxic stress was 10 min. In some animals, indomethacin (5 mg/kg, i.v.) or 7-nitroindazole (7-NI) was administered prior to ischemia to block PGHS or brain nitric oxide synthase (bNOS), respectively. Tissues from cerebral cortex and hippocampus were removed and fixed and/or frozen after 1, 2, 4 and 8 h of recovery from anoxic stress. In addition, tissues were obtained from untreated animals or from time control animals. Levels of mRNA and proteins were determined using RNase protection assay and immunohistochemical approaches, respectively. In the tissues studied, only a few neurons were immunopositive for PGHS-1, and neither ischemia or asphyxia affected PGHS-1 immunostaining at 8 h after recovery. Likewise, PGHS-1 mRNA did not increase following anoxic stress. In contrast, substantial PGHS-2 immunoreactivity was present in neurons and glial cells in the cerebral cortex and hippocampus and there was no difference between time control and non treated animals. PGHS-2 mRNA increased by 2-4 h after ischemia, and heightened immunoreactivity for PGHS-2 was present at 8 h after ischemia in cerebral cortex and hippocampus. However, asphyxia did not increase PGHS-2 mRNA or immunostaining. Indomethacin pretreatment inhibited increases in mRNA and protein for PGHS-2 after ischemia, while 7-NI had little effect on increases in PGHS-2 immunoreactivity. We conclude that: (1) PGHS-2 is the predominant isoform present in piglet cerebral cortex and hippocampus; (2) Ischemia but not asphyxia increases levels of PGHS-2; (3) Ischemia does not increase levels of PGHS-1; and (4) Indomethacin but not 7-NI attenuates ischemia-induced increases in PGHS-2.
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PMID:Effects of anoxic stress on prostaglandin H synthase isoforms in piglet brain. 959 32

Evidence has accumulated to suggest that the NMDA glutamate receptor subtype plays an important role in neuronal degeneration evoked by hypoxia, ischemia, or trauma. Cerebellar granule cells in culture are vulnerable to NMDA-induced neuronal excitotoxicity. In these cells, brain-derived neurotrophic factor (BDNF) and basic fibroblast growth factor (FGF2) prevent the excitotoxic effect of NMDA. However, little is known about the molecular mechanisms underlying the protective properties of these trophic factors. Using cultured rat cerebellar granule cells, we investigated whether BDNF and FGF2 prevent NMDA toxicity by downregulating NMDA receptor function. Western blot and RNase protection analyses were used to determine the expression of the various NMDA receptor subunits (NR1, NR2A, NR2B, and NR2C) after BDNF or FGF2 treatment. FGF2 and BDNF elicited a time-dependent decrease in the expression of NR2A and NR2C subunits. Because NMDA receptor activation leads to increased intracellular Ca2+ concentration ([Ca2+]i), we studied the effect of the BDNF- and FGF2-induced reduction in NR2A and NR2C synthesis on the NMDA-evoked Ca2+ responses by single-cell fura-2 fluorescence ratio imaging. BDNF and FGF2 reduced the NMDA-mediated [Ca2+]i increase with a time dependency that correlates with their ability to decrease NR2A and NR2C subunit expression, suggesting that these trophic factors also induce a functional downregulation of the NMDA receptor. Because sustained [Ca2+]i is believed to be causally related to neuronal injury, we suggest that BDNF and FGF2 may protect cerebellar granule cells against excitotoxicity by altering the NMDA receptor-Ca2+ signaling via a downregulation of NMDA receptor subunit expression.
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PMID:Brain-derived neurotrophic factor and basic fibroblast growth factor downregulate NMDA receptor function in cerebellar granule cells. 974 62

Living hippocampal slices from Wistar rats were used to study the dynamics of changes in population electrical responses in field CA1 to electrical stimulation of Shaffer collaterals during the development of ischemia (imposed by exclusion of oxygen and glucose from the perfusion solution). These studies showed that during ischemia, addition of ribonuclease (a blocker of protein synthesis) to the perfusion solution resulted in a significantly smaller increase in the latent period of the response and slowed the onset of the reduction in the amplitude of the evoked potential, and promoted faster recovery of the response after the ischemia session ended. It is suggested that the reduction in protein synthesis due to ribonuclease preserved energy reserves in the nerve tissue, which in turn promoted more complete recovery of neuron function in the post-ischemic period.
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PMID:Ribonuclease improves the state of hippocampal sections in the post-ischemic period. 976 5

We examined effects of ischemia on expression of prostaglandin H synthase-1 (PGHS-1) and prostaglandin H synthase-2 (PGHS-2) in piglet choroid plexus. Ten minutes of ischemia was induced by increasing intracranial pressure. Whole choroid plexus was removed and fixed and/or frozen after 1, 2, 4, and 8 h of recovery from anoxic stress. In addition, tissues were obtained from untreated animals or from time control animals. Tissues were analyzed for mRNA, using RNase protection assays, and for proteins, using immunohistochemical approaches. Limited, but detectable PGHS-2 immunoreactivity was present in choroid plexus under normal conditions, and there was no difference between time-control and non-treated animals. Further, PGHS-2 mRNA increased by 2-4 h after ischemia, and enhanced immunoreactivity for PGHS-2 was present at 8 h after ischemia. Enhanced immunoreactivity for PGHS-2 was present in vascular endothelial cells as well as cuboidal epithelial cells and macrophages. In contrast, PGHS-1 mRNA did not increase following ischemia. We conclude that PGHS-2 is present in piglet choroid plexus under normal conditions and that ischemia increases levels of PGHS-2 in choroid plexus.
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PMID:Effects of ischemia on prostaglandin H synthase-2 expression in piglet choroid plexus. 978 79


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