Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.1.1.17 (ornithine decarboxylase)
 6,351 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Metabolic, mechanical, thermal, and chemical injury induced ornithine decarboxylase (ODC) activity in rat brain. A two- to sixfold increase in ODC activity was measured at 5-9 h after different modes of injury to the brain. During the early phase of recovery from transient ischemia, when average protein synthesis was less than 50% of control, ODC activity was increased nearly fivefold. The rise in activity could be blocked by anisomycin, or reduced by intracerebral injections of actinomycin D. Drilling burr holes into the skull, injection of the vehicle for actinomycin D, hyperthermia, and freezing lesions all caused increased ODC activity. Neurotoxic chemicals (ammonia, methionine sulfoximine, acrylamide, carbon tetrachloride, and anisomycin) also increased brain ODC activity, whereas other chemicals (mannitol and valine) did not. Treatments known to stimulate the synthesis of heat shock proteins (carotid occlusion, hyperthermia, Cd2+, canavanine, and ethanol) induced ODC activity in the liver, whereas only hyperthermia and ethanol caused significant increases in spleen ODC activity. All increases in ODC activity were blocked by difluoromethylornithine, an irreversible inhibitor of ODC. The cellular response to noxious or stressful stimuli includes the synthesis of a small number of proteins of unknown functions; ODC may be one of these "heat shock" or "trauma" proteins.
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PMID:Induction of brain ornithine decarboxylase during recovery from metabolic, mechanical, thermal, or chemical injury. 642 97

We examined the polyamine metabolism in liver transplanted after cold ischemia and effects of putrescine administration on liver injury, liver regeneration, and survival rate after orthotopic liver transplantation in the rat. Male Wistar rats were used as donors and recipients. Grafts were stored in Euro-Collins solution for 6 h at 4 degrees C. Orthotopic liver transplantation was performed by the three cuff technique. The activities of aspartate aminotransferase, alanine aminotransferase and lactate dehydrogenase elevated and peaked 4 h after liver transplantation. Hepatic ornithine decarboxylase and spermidine/spermine N1-acetyltransferase activities were also elevated and peaked 8 h after the operation. In agreement with the increases in ornithine decarboxylase and spermidine/spermine N1-acetyltransferase activities, the putrescine content increased and spermidine content decreased in the transplanted liver. Putrescine administrated intraperitoneally improved the survival rate, decreased serum transaminase level and increased the [3H]thymidine incorporation into the liver DNA. These findings suggest that both biosynthetic and biodegradative pathways are stimulated in liver transplantation, resulting in the increase in the formation of putrescine from ornithine and from spermidine, and that putrescine administration improve the survival rate by protecting the damaged graft after cold ischemia and reperfusion and by stimulating liver regeneration.
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PMID:Polyamine metabolism in the rat liver after orthotopic liver transplantation. 749 79

Our previous study suggested that histamine might enhance the increase of ornithine decarboxylase activity in injured intestinal mucosa. To test this hypothesis, we measured histamine content in mesenteric lymph and ornithine decarboxylase activity in intestinal mucosa after ischemia-reperfusion in the rat. We examined the effect of alpha-fluoromethylhistidine, a suicide inhibitor of histidine decarboxylase, on ornithine decarboxylase activity after ischemia-reperfusion and compared this with its effect on the rat after refeeding. Ischemia-reperfusion was performed by 15-min occlusion of the superior mesenteric artery. After ischemia-reperfusion, histamine content in mesenteric lymph increased, and this increase was completely suppressed by alpha-fluoromethylhistidine pretreatment. In contrast to ischemia-reperfusion, histamine content in mesenteric lymph did not change after refeeding. Ornithine decarboxylase activity increased markedly 3 and 6 hr after ischemia-reperfusion and refeeding, whereas alpha-fluoromethylhistidine attenuated the increase in ornithine decarboxylase activity only in the ischemia-reperfusion group. These results indicate that increase in histamine synthesis in the intestinal mucosa plays an important role in the increase of ornithine decarboxylase activity after ischemia-reperfusion but that histamine is not related to the increase in ornithine decarboxylase activity after refeeding.
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PMID:Histamine effect on ornithine decarboxylase of rat intestine in cases of ischemia-reperfusion compared with refeeding. 753 39

General anesthetic agents often affect the biochemical and physiologic changes triggered by cerebral ischemia. This study examined the regional activities of ornithine decarboxylase (ODC) in gerbils subjected to 5 min of bilateral carotid occlusion without anesthesia. At 2, 4, and 6 h of reperfusion, significant ODC activity was observed in both the cortex and the hippocampus. Pretreatment with alpha-difluoromethylornithine (DFMO) significantly blocked the ODC activity at 2, 4, and 6 h. Significant edema formation was found at 2, 4, and 6 h. At 2 h, edema formation was unaffected by administration of DFMO. However, DFMO treatment reduced later edema formation at 4 and 6 h. These results demonstrate that ODC activity and edema formation are delayed in gerbils after the induction of transient ischemia even with the removal of anesthetic agents and their potentially protective effects. These findings suggest that ODC activity and its induction of delayed cerebral edema are specific to cerebral ischemia and not to an anesthetic effect. DFMO treatment reduced both the ODC activity and edema formation, indicating a role for polyamines in postischemic edema formation.
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PMID:Ornithine decarboxylase activity and edema formation in cerebral ischemia of conscious gerbils. 759 61

We previously demonstrated that both histamine synthesis (histidine decarboxylase activity) and polyamine synthesis (ornithine decarboxylase activity) increased in the rat intestinal mucosa after ischemia-reperfusion, whereas the relationship between these two factors remains unclear. To elucidate this relationship, we performed the present study. The superior mesenteric artery was occluded for 15 min followed by reperfusion. After ischemia-reperfusion, histidine decarboxylase activity and ornithine decarboxylase activity in the rat jejunal mucosa were measured in a time-dependent manner. Histidine decarboxylase activity increased 1 hr after ischemia-reperfusion, although ornithine decarboxylase activity did not; however, its activity did increase 6 hr after. The increase of ornithine decarboxylase activity was attenuated when the increase of histamine synthesis was suppressed by the inhibition of histidine decarboxylase activity caused by pretreatment with alpha-fluoromethylhistidine, a suicide inhibitor of histidine decarboxylase. Pretreatment with H1-receptor antagonist attenuated the increase of ornithine decarboxylase activity after ischemia-reperfusion. These results indicate that the newly synthesized histamine, as indicated by an increase of histidine decarboxylase activity, increases ornithine decarboxylase activity after ischemia-reperfusion of the rat intestinal mucosa.
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PMID:Newly synthesized histamine accelerates ornithine decarboxylase activity in rat intestinal mucosa after ischemia-reperfusion. 772 Apr 59

Cerebral ischemia in the gerbil results in early hippocampal changes, which include transient activation and/or translocation of protein kinase C (PKC), increased enzymatic activity of ornithine decarboxylase (ODC), and elevated DNA binding ability of activator protein-1 (AP1). The time-course of all three of these postischemic responses was found to be almost parallel, peaking at 3 hr after the ischemic insult. The effectiveness of known modulators of postischemic morphological outcome (MK-801, L-NAME, and gingkolides BN 52020 and BN 52021) in counteracting the induction of PKC, ODC, and AP1 formation was tested. These drugs were administrated as followed: MK-801 (a noncompetitive inhibitor of NMDA channel), 0.8 mg/kg i.p., 30 min before ischemia, and 5 min after the insult; L-NAME (competitive inhibitor of NO synthase), 10 mg/kg i.p., 30 min before ischemia, and 5 mg/kg, 5 min after ischemia; BN52020 and BN52021 (inhibitors of platelet-activating factor: PAF receptors) were administered as a suspension in 5% ethanol in water by oral route, 10 mg/kg for 3 days before ischemia. Three of these drugs, MK-801, L-NAME, and BN52021, significantly reduced ischemia-elevated activity of PKC and ODC, whereas AP1 formation was only partially attenuated. Our observations implicate the existence of different mechanism(s) for postischemic PKC and ODC activation, which in turn is engaged in AP1 induction.
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PMID:Modulation of ischemic signal by antagonists of N-methyl-D-aspartate, nitric oxide synthase, and platelet-activating factor in gerbil hippocampus. 774 16

The immature brain is resistant to cell damage from hypoxia, such as that experienced during parturition. Because cocaine causes cerebral ischemia, we examined whether cocaine interferes with this resistance. On postnatal days 1, 4 or 8, neonatal rats were given an acute injection of saline or cocaine (30 mg/kg s.c.) and were then exposed to 7% O2 for 2 h. At the end of the exposure period, activity of ornithine decarboxylase (ODC), an enzymatic marker for activation of cell damage/repair, was assessed in different brain regions. Across all ages and regions, cocaine by itself suppressed ODC, reflecting reduced cell metabolism in the face of ischemia; the protein synthetic rate, assessed with [3H]leucine incorporation, was largely preserved during the drug insult. On postnatal day 1, hypoxia alone also led to a reduction in forebrain ODC as part of the protective metabolic response, with preservation of protein synthesis despite restricted oxygen availability. However, when cocaine and hypoxia were combined, ODC was induced and protein synthesis fell, indicating the onset of cell damage. By 4 days of age, brain maturation produced a change in the metabolic response to hypoxia alone, characterized by ODC induction; when cocaine was present, the response to hypoxia was exacerbated. At 8 days of age, neonatal brain again showed ODC induction with hypoxia, but in this case, cocaine pretreatment reduced the effect on ODC. Measurements of the patterns of protein synthesis during and after hypoxia indicated that cocaine pretreatment was enhancing the cell damage component of the response (increased protein synthesis during hypoxia) and reducing the cell repair component (decreased ability to induce ODC). In contrast to the interaction of acute cocaine with hypoxia, chronic prenatal treatment with cocaine did not elicit exacerbation of the cell damage markers during a subsequent exposure to postnatal hypoxia; worsening of hypoxic cell injury thus occurs only when cocaine is present concurrently with the hypoxia, as would be expected from direct ischemic actions of cocaine. Enhanced sensitivity to hypoxia-induced brain cell damage could be an important contributing factor to the net effects of cocaine on brain development in light of the acute ischemia associated with 'crack' cocaine smoking, hypoxia/ischemia from cigarette smoking, or hypoxia during parturition.
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PMID:Cocaine exacerbates hypoxia-induced cell damage in the developing brain: effects on ornithine decarboxylase activity and protein synthesis. 787 92

Polyamines are derived from ornithine by the actions of ornithine decarboxylase (ODC), which is the rate-limiting step in this pathway. Polyamines play a role in cell growth, neoplasia, differentiation, and response to injury. We have shown that transient cerebral ischemia gives rise to increased ODC mRNA and enzyme activity in the gerbil brain. ODC and polyamines are thought to be important in the generation of edema and the neuronal cell loss associated with cerebral ischemia. To test this theory, we examined the ODC activity, putrescine levels, and neuronal density in the CA1 region of the hippocampus following ischemia and reperfusion injury in the absence and presence of an inhibitor of ODC activity, alpha-difluoromethylornithine (DFMO). Pretreatment of animals with DFMO resulted in attenuation of the ODC activity following 5 min of ischemia and 4 h of reperfusion. In addition, DFMO prevented the increase in polyamine levels, as determined by measurement of putrescine in the ischemic brain. These alterations were not due to changes in ODC mRNA level. Further analysis revealed that DFMO treatment blocked the delayed neuronal cell death in the CA1 region of the hippocampus that accompanies ischemia and reperfusion injury. Administration of DFMO resulted in a dose-dependent beneficial effect upon neuronal cell survival. These results suggest that ODC enzyme activity and the production of polyamines play a significant role in the response of the brain to ischemic injury.
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PMID:Blockade of ornithine decarboxylase enzyme protects against ischemic brain damage. 792 46

Thyroid hormone is an important interventional agent shown to be beneficial in a variety of models of acute renal failure (ARF). While its usefulness is clear, its mechanism of action remains unknown. Although there are a multitude of thyroid-inducible proteins and enzymes, the one singled out in these studies as of potential mechanistic significance in the protective effect of thyroid in ARF is ornithine decarboxylase (ODC). This enzyme catalyzes the entry step in the biosynthesis of polyamines, which possess several potential roles in fostering renal repair and recovery. Ischemic ARF was induced in rats by renal arterial clamp and functional assessment was made by inulin clearance 24 h after injury. Both T4 (10 micrograms/100 g) and T3 (1 and 10 micrograms/100 g) resulted in significant improvement in inulin clearance when compared to ischemia alone, while reverse T3 was without effect. The activity of ODC was reduced 70% at 24 h in the kidney cortex but T3 restored the level to near control. Pretreatment of rats with difluoromethylornithine (DFMO), and irreversible inhibitor of ODC, resulted in nearly complete inhibition of this enzyme in the cortex and medulla, and blocked the increase in activity induced by T3. From the functional standpoint, DMFO did not worsen the severity of ischemic ARF but completely blocked the protective effect of T3. These data strongly suggest roles for ODC stimulation and, presumably, the consequent augmentation of polyamine biosynthesis, in the mechanism by which thyroid hormone enhances recovery from ARF.
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PMID:Thyroid hormone induction of ornithine decarboxylase in ischemic acute renal failure. 793 52

Sepsis with multisystem organ failure is a major cause of morbidity and mortality in burns. We studied the anatomic, physiologic, and metabolic changes of gut mucosa as a normal barrier against sepsis and systemic inflammatory response after burn and sepsis in the chronic porcine model. Flow probes were placed on the mesenteric and hepatic arteries and portal vein. Catheters were placed in the pulmonary artery (Swan-Ganz), aorta, superior mesenteric, and hepatic veins. After 5 days, baseline data were collected and studied after a 40%, third degree burn. They were resuscitated with Ringer's lactate solution (Parkland formula). Eighteen hours later, Escherichia coli endotoxin (100 micrograms/kg) was administered. All animals were sacrificed after 30 hr. The data were compared to a group of sham animals. Following thermal injury the cardiovascular status was stable. Endotoxin administration decreased systemic vascular resistance index and mean arterial pressure, but increased cardiac index. Mesenteric blood flow, vascular resistance, and oxygen consumption showed a transient fall after endotoxin infusion with 20, 23, and 40% reduction, respectively. These changes were associated with a rise in plasma levels of conjugated dienes. The intestinal ornithine decarboxylase activity was elevated at the end of the experiment, evidence of gut repair. Gut bacteria translocated into mesenteric lymph nodes, spleen, and burn wounds in 50% of the animals. We concluded that bacterial translocation into mesenteric lymph nodes, spleen, and wound is due to gut mucosal failure after burn trauma and sepsis. These pathophysiologic changes may be the result of mesenteric ischemia and reperfusion injury.
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PMID:Gut failure and translocation following burn and sepsis. 804 Nov 38


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