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: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reactive oxygen species are regarded as merely pernicious. This is incorrect for they play a pivotal role in many physiologic reactions, such as cytochrome P450-mediated oxidations, regulation of the tone of smooth muscle, and killing of microorganisms. An imbalance in oxidant-antioxidant activity is involved in many free radical-mediated pathologies, e.g., ischemia-reperfusion and asthma. In an attempt to alleviate these pathologies with antioxidants, it should be noted that these compounds are neither specific nor mere antioxidants. Associated with antioxidant activity is a pro-oxidant action. In the development of new antioxidant therapies, the important question of how these drugs are incorporated in or commensurate with existing integrated physiologic radical-defense systems should be addressed.
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PMID:Oxidants and antioxidants: state of the art. 192 7

The salicylate trapping method was used to investigate the changes in hydroxyl radical (.OH) levels in the selectively vulnerable hippocampus compared to the cerebral cortex of gerbils subjected to a 10 min period of near complete forebrain ischemia. Salicylate-derived 2,5-dihydroxybenzoic acid (2,5-DHBA) was measured in sham-operated animals and at 1, 5, and 15 min of reperfusion. A basal level of 2,5-DHBA was also seen in non-ischemic gerbil brain, both in the hippocampus and cortex. The hippocampal basal level was 160% higher than in the cortex (P < .01). Treatment with the cytochrome P450 inhibitor SKF-525A (50 mg/kg s.c. 30 min before measurement) did not affect this basal level in either hippocampus or cortex, which argues against a contribution of metabolic salicylate hydroxylation as its source. In contrast, pretreatment with the arachidonic acid cyclo-oxygenase inhibitor ibuprofen (20 mg/kg s.c.) decreased (-68.8%) the level of salicylate hydroxylation in the hippocampus, but not the cortex. In animals subjected to 10 min of forebrain ischemia, a selective increase in 2,5-DHBA was observed in the hippocampus at 1 min of reperfusion which subsided by 5 min. No increase in salicylate hydroxylation was apparent in the cortex within the same time frame. The increase in .OH in the hippocampus at 1 min of reperfusion was accompanied by a significant decrease (-15.7%; P < .03) in the hippocampal levels of vitamin E. No loss of vitamin E was observed in the cortex at the same time.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hydroxyl radical production and lipid peroxidation parallels selective post-ischemic vulnerability in gerbil brain. 838 Aug 74

During the last decade intensive work on the relationships between the liver and the arachidonic acid cascade has greatly expanded our knowledge of this area of research. The liver has emerged as the major organ participating in the degradation and elimination of arachidonate products of systemic origin. The synthesis in the liver of arachidonate products derived from the cyclooxygenase, lipoxygenase and cytochrome P450 system pathways has been demonstrated. The participation of leukotriene B4 and cysteinyl-leukotrienes as mediators of liver damage and the possible therapeutic usefulness of prostaglandins (PGs) in acute liver injury has attracted the interest of clinicians. This article reviews the essential features regarding the role of arachidonate metabolites in liver disease and specially focuses on the cytoprotective effects on the liver displayed by PGE2, PGE1, PGI2 and synthetic PG analogs in experimental models of liver damage induced by ischemia-reperfusion injury, carbon tetrachloride, bacterial lipopolysaccharide and viral hepatitis and on the possible mechanisms underlying liver cytoprotection in these experimental models. The therapeutic usefulness of PGs in clinical practice is critically analyzed on the basis of available evidence in patients with fulminant hepatic failure and primary graft nonfunction following liver transplantation.
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PMID:Liver cytoprotection by prostaglandins. 841 74

There are some indications from clinical studies (41,43) for aberrant cyclosporine metabolism resulting in formation of potentially toxic metabolites. When the activity of cytochrome P450 3A enzymes is low, more substrate is available for hypothetical alternative pathways of cyclosporine. There are several reasons for low P450 3A activity in a liver graft such as inter-individual genetic variability (43,49,84), cold ischemia and reperfusion damage, changes of the P450 activity during cholestasis (85) or other liver diseases (86), the influence of cytokines (87) and drug interactions such as inhibition or enzyme induction (88). Furthermore, low concentrations of cytochrome P450 3A influence the cyclosporine blood trough concentrations. The P450 3A concentration as estimated by the erythromycin breath test can be used to calculate the initial cyclosporine dose required to obtain cyclosporine blood trough concentrations in the therapeutic window (89). In vitro such alternative pathways comprising 3-methylcholanthrene-inducible (44,46,47) and/or ethinyl estradiol-inducible cytochrome P450 enzymes (48) could be identified and resulted in production of cyclized cyclosporine metabolites. The exact identification of the P450 enzymes involved requires metabolism of cyclosporine using reconstituted purified enzymes or single P450 enzymes expressed in cell lines. In addition, it remains to be clarified whether cyclosporine itself or its metabolite AM1 is the substrate for cyclization. Because cyclized metabolites have a low affinity to cyclophilin (58,59) they are mainly found in plasma. When more cyclized metabolites are formed primarily the concentration of cyclosporine metabolites in plasma increases. The free fraction of cyclosporine at 37 degrees C was found to be 1%-1.5% (90,91) of the cyclosporine concentration in blood. To date, nothing is known about the free fraction of cyclosporine metabolites. Because distribution characteristics of the cyclized metabolites in blood and urine are different from those of cyclosporine, it can be speculated that the free fraction of the cyclized metabolites is higher than that of cyclosporine. This might be reflected by a higher renal clearance resulting in relatively higher concentrations in urine compared with blood (61; Figure 3). If this is the case, a shift in the metabolite pattern with increased concentrations of cyclized metabolites will lead to an overproportional increase of the free fraction of cyclosporine metabolites. Although it is tempting to assume that cyclization is the alternative pathway explaining cyclosporine toxicity in patients with low concentrations of P450 3A enzymes in the liver (Figure 6), this has not yet been proven and will require not only quantification of P450 3A but of the complete P450 enzyme pattern in the liver in combination with characterization of the cyclosporine metabolite pattern by HPLC with special respect to the cyclized metabolites AM1c and AM1c9. Also, it is still unclear whether or not the cyclized metabolites contribute to cyclosporine toxicity. At least, it is unlikely that they are involved in covalent binding to macromolecules in the liver and kidney (44,71). In a clinical study using an HPLC method which allowed the specific quantification of 16 cyclosporine metabolites it was shown that the blood trough concentrations of the cyclized metabolite AM1c9 is elevated during early nephrotoxicity in liver graft recipients (82) and it was shown in an in vitro model that AM1c9 increases endothelin production and therefore might have a negative effect on renal hemodynamics.(ABSTRACT TRUNCATED)
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PMID:Alternative cyclosporine metabolic pathways and toxicity. 859 1

The relationship between lipid peroxidation and alterations in hepatic secretory function and microsomal function during hepatic ischemia/reperfusion was studied. Rats pretreated with free radical scavengers were subjected to 60 min of hepatic ischemia and to 1 and 5 h of reperfusion thereafter. Serum aminotransferase level and microsomal lipid peroxidation were markedly increased by ischemia/reperfusion. These increases were significantly attenuated by rebamipide, alpha-tocopherol or allopurinol. Bile flow and cholate output were markedly decreased by ischemia/reperfusion and free radical scavengers, especially rebamipide, restored their secretion. NADPH-cytochrome P450 reductase activity and cytochrome P450 content were decreased by ischemia/reperfusion. Rebamipide prevented the decrease of the NADPH-cytochrome P450 reductase activity but had little effect on the cytochrome P450 content. Aminopyrine N-demethylase activity was decreased and aniline p-hydroxylase was increased by ischemia/reperfusion, which were prevented by alpha-tocopherol and allopurinol, but not by rebamipide. Our findings suggest that ischemia/reperfusion diminishes hepatic secretory function and microsomal function by increasing lipid peroxidation, and rebamipide significantly ameliorates these changes through its free radical scavenging activity.
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PMID:Rebamipide ameliorates hepatic dysfunction induced by ischemia/reperfusion in rats. 878 14

A cDNA encoding a P450 monooxygenase was amplified from reverse transcribed rat heart and liver total RNA by polymerase chain reaction using primers based on the 5'- and 3'-end sequences of two rat pseudogenes, CYP2J3P1 and CYP2J3P2. Sequence analysis revealed that this 1,778-base pair cDNA contained an open reading frame and encoded a new 502 amino acid protein designated CYP2J3. Based on the deduced amino acid sequence, CYP2J3 was approximately 70% homologous to both human CYP2J2 and rabbit CYP2J1. Recombinant CYP2J3 protein was co-expressed with NADPH-cytochrome P450 oxidoreductase in Sf9 insect cells using a baculovirus expression system. Microsomal fractions of CYP2J3/NADPH-cytochrome P450 oxidoreductase-transfected cells metabolized arachidonic acid to 14,15-, 11,12-, and 8, 9-epoxyeicosatrienoic acids and 19-hydroxyeicosatetraenoic acid as the principal reaction products (catalytic turnover, 0.2 nmol of product/nmol of cytochrome P450/min at 37 degrees C). Immunoblotting of microsomal fractions prepared from rat tissues using a polyclonal antibody raised against recombinant CYP2J2 that cross-reacted with CYP2J3 but not with other known rat P450s demonstrated abundant expression of CYP2J3 protein in heart and liver. Immunohistochemical staining of formalin-fixed paraffin-embedded rat heart tissue sections using the anti-CYP2J2 IgG and avidin-biotin-peroxidase detection localized expression of CYP2J3 primarily to atrial and ventricular myocytes. In an isolated-perfused rat heart model, 20 min of global ischemia followed by 40 min of reflow resulted in recovery of only 44 +/- 6% of base-line contractile function. The addition of 5 microM 11, 12-epoxyeicosatrienoic acid to the perfusate prior to global ischemia resulted in a significant 1.6-fold improvement in recovery of cardiac contractility (69 +/- 5% of base line, p = 0.01 versus vehicle alone). Importantly, neither 14,15-epoxyeicosatrienoic acid nor 19-hydroxyeicosatetraenoic acid significantly improved functional recovery following global ischemia, demonstrating the specificity of the biological effect for the 11, 12-epoxyeicosatrienoic acid regioisomer. Based on these data, we conclude that (a) CYP2J3 is one of the predominant enzymes responsible for the oxidation of endogenous arachidonic acid pools in rat heart myocytes and (b) 11,12-epoxyeicosatrienoic acid may play an important functional role in the response of the heart to ischemia.
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PMID:Molecular cloning, expression, and functional significance of a cytochrome P450 highly expressed in rat heart myocytes. 913 7

Fructose-induced hypertriglyceridemic Sprague-Dawley (SD) rats become resistant to hepatotoxicity and susceptible to nephrotoxicity of acetaminophen (APAP) as compared with normal SD rats. Fischer-344 rats, which are susceptible to APAP nephrotoxicity, have two toxic metabolic pathways involving cytochrome P450-dependent oxidation of APAP to N-acetyl-p-benzoquinone imine (NAPQI) and P450-independent deacetylation of APAP to p-aminophenol (PAP). SD rats, however, have only the former pathway. This study was undertaken to investigate whether alterations in the metabolic pathways of APAP and in the intrinsic susceptibility to toxic metabolites are responsible for an enhancement of APAP nephrotoxicity in the fructose-pretreated SD-rats. In the non-pretreated rats, the inhibition of APAP oxidation by the MFO inhibitor, piperonyl butoxide, and deacetylation by carboxyesterase inhibitor, bis(p-nitrophenyl)phosphate, did not alter APAP-induced renal lesions. In contrast, these inhibitors protected the fructose-pretreated rats from APAP-induced renal lesions. Since there were no differences in the severity of gentamicin-, chloroform, and 45 min-ischemia/reperfusion-induced renal lesions between the non-pretreated and the fructose-pretreated rats, it is unlikely that the increased intrinsic susceptibility to chemicals and their metabolites in the fructose-pretreated rats is a major factor in the enhancement of APAP nephrotoxicity. These results indicate that the enhancement of APAP nephrotoxicity in the fructose-pretreated rats is due, at least in part, to an alteration in metabolic pathways of APAP.
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PMID:Enhanced nephrotoxicity of acetaminophen in fructose-induced hypertriglyceridemic rats: contribution of oxidation and deacetylation of acetaminophen to an enhancement of nephrotoxicity. 945 75

The study was performed on rats divided into 9 groups. Groups 1-3 served as controls. In groups 4 and 5 rat livers were subjected to 90-min ischemia followed by 12- or 24-hour reperfusion. In groups 6 and 7 rats were injected with intraperitoneal chlorfenvinphos (2 mg/kg b.w.) and sacrificed after 12 or 24 hours. In groups 8 and 9 rat livers were subjected to 90-min ischemia, 12- or 24-hour reperfusion and then rats were injected with chlorfenvinphos (2 mg/kg b.w.). Liver sections were evaluated morphologically, histochemically (SDH, LDH, G6Pase, glycogen, Mg2+ ATPase and AcP). The microsomal fraction of the liver was evaluated for cytochrome P450 content and NADPH-cytochrome P-450 reductase activity. It has been found that liver ischemia and reperfusion result in extensive necrosis, enzymatic disturbances, particularly in acinar zone 3. Ischemia as well as reperfusion decrease the cytochrome P450 content of hepatocytic microsomes and the activity of NADPH-cytochrome P-450 reductase. Intraperitoneal injection of chlorfenvinphos during ischemia and reperfusion dramatically intensifies damage to the liver, although chlorfenvinphos alone produces only mild nonspecific effects on the morphological and enzymatic structure of the liver.
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PMID:Effect of chlorfenvinphos on rat liver subjected to ischemia and reperfusion. 947 88

Nitric oxide (NO) may regulate hepatic metabolism directly by causing alterations in hepatocellular (hepatocyte and Kupffer cell) metabolism and function or indirectly as a result of its vasodilator properties. Its release from the endothelium can be elicited by numerous autacoids such as histamine, vasoactive intestinal peptide, adenosine, ATP, 5-HT, substance P, bradykinin, and calcitonin gene-related peptide. In addition, NO may be released from the hepatic vascular endothelium, platelets, nerve endings, mast cells, and Kupffer cells as a response to various stimuli such as endotoxemia, ischemia-reperfusion injury, and circulatory shock. It is synthesized by nitric oxide synthase (NOS), which has three distinguishable isoforms: NOS-1 (ncNOS), a constitutive isoform originally isolated from neuronal sources; NOS-2 (iNOS), an inducible isoform that may generate large quantities of NO and may be induced in a variety of cell types throughout the body by the action of inflammatory stimuli such as tumor necrosis factor and interleukin (IL)-1 and -6; and NOS-3 (ecNOS), a constitutive isoform originally located in endothelial cells. Another basis for differentiation between the constitutive and inducible enzymes is the requirement for calcium binding to calmodulin in the former. NO is vulnerable to a plethora of biologic reactions, the most important being those involving higher nitrogen oxides (NO2-), nitrosothiol, and nitrosyl iron-cysteine complexes, the products of which (for example, peroxynitrite), are believed to be highly cytotoxic. The ability of NO to react with iron complexes renders the cytochrome P450 series of microsomal enzymes natural targets for inhibition by NO. It is believed that this mechanism provides negative feedback control of NO synthesis. In addition, NO may regulate prostaglandin synthesis because the cyclooxygenases are other hem-containing enzymes. It may also be possible that NO-induced release of IL-1 inhibits cytochrome P450 production, which ultimately renders the liver less resistant to trauma. It is believed that Kupffer cells are the main source of NO during endotoxemic shock and that selective inhibition of this stimulation may have future beneficial therapeutic implications. NO release in small quantities may be beneficial because it has been shown to decrease tumor cell growth and levels of prostaglandin E2 and F2 alpha (proinflammatory products) and to increase protein synthesis and DNA-repair enzymes in isolated hepatocytes. NO may possess both cytoprotective and cytotoxic properties depending on the amount and the isoform of NOS by which it is produced. The mechanisms by which these properties are regulated are important in the maintenance of whole body homeostasis and remain to be elucidated.
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PMID:The role of nitric oxide in hepatic metabolism. 959 11

The hepatic cytochromes P450 1A1, 1A2, 2B1, and 2E1 activities have been investigated in the sublines of Wistar rats with principally different (high or low) resistance to hypoxia/stress. Repeated measurements in normoxic conditions showed a significant prevalence of total cytochrome P450 content, CYP 1A1, and CYP 2E1 activities in rats with low-resistance (LR) to hypoxia compared to rats with high-resistance to hypoxia (HR), whereas in HR rats the CYP 1A2 activity was 63% higher (p < 0.001) than in LR rats. In the conditions of acute hypobaric hypoxia these differences were manifested distinctly: in HR rats an enhancement of CYP 1A2 activity by 49% of aerobic value (p < 0.01) was observed, in LR rats the total P450 content, CYP 1A1 and 2E1 activities (p < 0.05-0.001) were increased. The 30-min total liver ischemia formed an individual response of the drug-metabolizing system: in HR rats CYP 1A2 and 2B1 activities were decreased in the early postischemic period and were not restored by the 21st day, whereas in LR rats CYP 1A2 activity was not affected and was induced more than 2-fold of aerobic value in the late post-ischemic period. The CYP 2B1 activity was induced almost 1.5-fold during the whole postischemic period. These data suggest that acute hypoxia and individual resistance to hypoxia/stress, one of the cardinal constitutional features, provide an individual reaction of drug-metabolizing system and enzymes of P450, in particular. The individual constitutional resistance to hypoxia/stress may be a serious criterion for an individual approach in pharmacotherapy of hypoxic states, diseases, as well as for prognosis and prevention of early and distant complications of irrational pharmacotherapy.
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PMID:Role of hypoxia and constitutionally different resistance to hypoxia/stress as the determiners of individual profile of cytochrome P450 isozyme activity. 1052 75


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