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)

Genetic and physical mapping of the RP17 locus on 17q identified a 3.6-megabase candidate region that includes the gene encoding carbonic anhydrase IV (CA4), a glycosylphosphatidylinositol-anchored protein that is highly expressed in the choriocapillaris of the human eye. By sequencing candidate genes in this region, we identified a mutation that causes replacement of an arginine with a tryptophan (R14W) in the signal sequence of the CA4 gene at position -5 relative to the signal sequence cleavage site. This mutation was found to cosegregate with the disease phenotype in two large families and was not found in 36 unaffected family members or 100 controls. Expression of the mutant cDNA in COS-7 cells produced several findings, suggesting a mechanism by which the mutation can explain the autosomal dominant disease. In transfected COS-7 cells, the R14W mutation (i) reduced the steady-state level of carbonic anhydrase IV activity expressed by 28% due to a combination of decreased synthesis and accelerated turnover; (ii) led to up-regulation of immunoglobulin-binding protein, double-stranded RNA-regulated protein kinase-like ER kinase, and CCAAT/enhancer-binding protein homologous protein, markers of the unfolded protein response and endoplasmic reticulum stress; and (iii) induced apoptosis, as evidenced by annexin V binding and terminal deoxynucleotidyltransferase-mediated dUTP nick end labeling staining, in most cells expressing the mutant, but not the WT, protein. We suggest that a high level of expression of the mutant allele in the endothelial cells of the choriocapillaris leads to apoptosis, leading in turn to ischemia in the overlying retina and producing autosomal dominant retinitis pigmentosa.
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PMID:Apoptosis-inducing signal sequence mutation in carbonic anhydrase IV identified in patients with the RP17 form of retinitis pigmentosa. 1509 Jun 52

The carcinoid syndrome, associated with carcinoid tumors of the midgut, consists of symptoms such as diarrhea, flushing, wheezing and cardiovascular symptoms. This review focuses on these symptoms and discusses therapeutic options. The symptoms are caused by the secretion of biogenic amines, polypeptides and other factors of which serotonin is the most prominent. However, diarrhea is also due to factors such as malabsorption. Besides antitumor therapy, more specific interventions such as serotonin receptor blockers can be useful. The carcinoid heart disease involves the tricuspid and pulmonary valve. In the pathogenesis, serotonin plays a central role. The therapeutic approach is mostly symptomatic. Other cardiovascular complications include bowel ischemia and hypertension. Pellagra and psychiatric symptoms are due to a depletion of tryptophan, which is consumed by the carcinoid tumor for serotonin synthesis. Finally, follow-up and clinical practice of patients with carcinoid tumors are discussed.
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PMID:Complications of midgut carcinoid tumors and carcinoid syndrome. 1547 13

Celsior solution (CS), a new preservation solution in thoracic organ transplantation, was evaluated for its efficacy in cold preservation of human liver endothelial cells (HLEC) and was compared to University of Wisconsin solution (UW) and histidine-tryptophan-ketoglutarate solution (HTK, Custodiol). HLEC cultures were preserved at 4 degrees C in CS, UW, and HTK, for 2, 6, 12, 24, and 48 hours, with 6 hours of reperfusion. Levels of lactate dehydrogenase (LDH), 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT), and adenosine 5'-triphosphate (ATP) were measured after each interval of ischemia and the respective phase of reperfusion. Preservation injury of HLEC as measured by LDH release, intracellular ATP level, and MTT reduction were overall significantly (P <or= .01, P <or= .01, P < .05, respectively) lower in UW than in CS and HTK. CS demonstrates a modest superiority to HTK in HLEC preservation. Furthermore, cold preservation remains the main cause of preservation injury of HLEC regardless of the preservation solution used. Additionally, the maintenance of a high intracellular ATP level of HLEC after ischemia and reperfusion, as shown by UW, could be taken as a beneficial effect, particularly in long-term ischemia. In conclusion, our cell culture model reveals the order of efficacy to protect HLEC against preservation injury as: UW >> CS > HTK.
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PMID:UW is superior to Celsior and HTK in the protection of human liver endothelial cells against preservation injury. 1555 36

Melatonin, or N-acetyl-5-methoxytryptamine, is a compound derived from tryptophan that is found in all organisms from unicells to vertebrates. This indoleamine may act as a protective agent in disease conditions such as Parkinson's, Alzheimer's, aging, sepsis and other disorders including ischemia/reperfusion. In addition, melatonin has been proposed as a drug for the treatment of cancer. These disorders have in common a dysfunction of the apoptotic program. Thus, while defects which reduce apoptotic processes can exaggerate cancer, neurodegenerative disorders and ischemic conditions are made worse by enhanced apoptosis. The mechanism by which melatonin controls cell death is not entirely known. Recently, mitochondria, which are implicated in the intrinsic pathway of apoptosis, have been identified as a target for melatonin actions. It is known that melatonin scavenges oxygen and nitrogen-based reactants generated in mitochondria. This limits the loss of the intramitochondrial glutathione and lowers mitochondrial protein damage, improving electron transport chain (ETC) activity and reducing mtDNA damage. Melatonin also increases the activity of the complex I and complex IV of the ETC, thereby improving mitochondrial respiration and increasing ATP synthesis under normal and stressful conditions. These effects reflect the ability of melatonin to reduce the harmful reduction in the mitochondrial membrane potential that may trigger mitochondrial transition pore (MTP) opening and the apoptotic cascade. In addition, a reported direct action of melatonin in the control of currents through the MTP opens a new perspective in the understanding of the regulation of apoptotic cell death by the indoleamine.
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PMID:Melatonin mitigates mitochondrial malfunction. 1561 31

Histidine-tryptophan-ketoglutarate (HTK) preserves rat muscle function during cold storage. We examined the effect of HTK perfusion on preservation of microvascular function during 4 h of warm ischemia and subsequent reperfusion (I/R) in the rat cremaster muscle. Leukocyte-endothelium interactions, capillary perfusion, and arteriole diameters were quantified prior to HTK-perfusion and/or ischemia, and at 0, 1, and 2 h after restoration of blood flow. In all groups, the number of rolling leukocytes increased with time, whereas I/R induced a slight increase in leukocyte adhesion. After ischemia, capillary perfusion rapidly recovered to about 50% and returned to near normal (90%) after 2 h. HTK at 22 degrees C did not affect the assessed microcirculation variables, whereas HTK at 4 degrees C reduced leukocyte rolling, but not adhesion. Therefore, microvascular function of HTK-perfused muscles was not better preserved during warm I/R than that of nonperfused muscles. Contrary to other preservation solutions, HTK perfusion in itself was not detrimental to the microcirculation.
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PMID:Effect of HTK on the microcirculation in the rat cremaster muscle during warm ischemia and reperfusion. 1570 26

Time course of oxidative modification of forebrain neural proteins was investigated in the rat model of global and partial cerebral ischemia/reperfusion. Animals were subjected to 4-vessel occlusion for 15 min (global ischemia). After the end of ischemia and at different reperfusion times (2, 24 and 48 h), lipoperoxidation-dependent and direct oxidative modification neural protein markers were measured in the forebrain total membrane fraction (tissue homogenate). Ischemia itself causes significant changes only in levels of tryptophan and bityrosine fluorescence when compared to controls. All tested parameters of protein modification altered significantly and were maximal at later reperfusion stage. Content of carbonyl group in re-flow period steadily increased and culminated at 48 h of reperfusion. The highest increase in the fluorescence of bityrosines was detected after 24 h of reperfusion and was statistically significant to both sham operated and ischemic groups. The changes in fluorescence intensity of tryptophan decreased during a reperfusion time dependent manner. Formation of lysine conjugates with lipoperoxidation end-products significantly increased only at later stages of reperfusion. Total forebrain membranes from animals subjected to 3-vessel occlusion model to 15 min (partial ischemia) show no altered content of oxidatively modified proteins compared to controls. Restoration of blood flow for 24 h significantly decreased only fluorescence of aromatic tryptophan. Partial forebrain ischemia/reperfusion resulted in no detectable significant changes in oxidative products formation in extracerebral tissues (liver and kidney) homogenates. Our results suggest that global ischemia/reperfusion initiates both the lipoperoxidation-dependent and direct oxidative modifications of neural proteins. The findings support the view that spatial and temporal injury at later stages of ischemic insult at least partially involves oxidative stress-induced amino acid modification. The results might have important implications for the prospective post-ischemic antioxidant therapy.
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PMID:Time course of ischemia/reperfusion-induced oxidative modification of neural proteins in rat forebrain. 1581 75

The effect of histidine-tryptophan-ketoglutarate (HTK) solution for myocardial protection has been shown in experimental and clinical studies using long ischemic times and high dosages. In our study we compared myocardial protection in isolated coronary bypass with a short period of ischemia using low dosage HTK and cold crystalloid cardioplegia. Each group contained 21 coronary artery disease patients. Cardioplegic solutions were administered antegrade in 10 to 15 mL/kg in one shot. This dosage of HTK was lower than that mentioned in the literature. We measured malondialdehyde, lactate, creatine kinase, creatine kinase-MB, and troponin-I levels. Aortic clamping time in the HTK group 33.9 +/- 8.2 minutes, versus 36.2 +/- 11.3 minutes in the crystalloid cardioplegia group (P > .05). Levels of creatine kinase and malondialdehyde were lower in HTK group at 24 hours and 2 minutes, respectively. Lactate levels were lower in the crystalloid cardioplegia group at 2 minutes in the coronary sinus serum sample, but there were no statistically differences among ischemic serum markers in both groups. Only intervals between aortic clamping and cardiac arrest were statistically meaningful (HTK 63.3 +/- 14.7 seconds versus crystalloid cardioplegia 53.6 +/- 15.6 seconds, P = .044). Our study shows that use of low-dose HTK for short clamping time operations is as successful for myocardial protection as crystalloid cardioplegia. Longer times for fibrillation can be explained with the low levels of potassium in HTK solution, but this length did not cause a biochemical or clinical difference.
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PMID:Low-dose histidine-tryptophan-ketoglutarate solution for myocardial protection. 1621 52

In May 2003, at Indiana University, the standard cold preservation solution University of Wisconsin (UW) solution was replaced by histidine-tryptophan ketogluatarate (HTK) solution. Earlier, we presented our initial experience with HTK in pancreas preservation with an analysis of the first 10 pancreas transplants. Here we report updated results with HTK in pancreas transplantation over the past 18 months. Between May 2003 and March 2005, a total of 87 pancreas transplants were performed with 78 of these organs utilizing HTK. Seventy five patients received 78 organ transplants. Surgical procedures performed were: simultaneous kidney pancreas transplantation (n = 50, 64%), pancreas after kidney transplantation (n = 19, 24%), solitary pancreas transplantation (n = 9, 12%). Donor and recipient data were collected with primary outcomes as primary nonfunction and 30-day graft and patient survivals, and compared to the UW cohort from our original report. Donor and recipient demographics were similar. Mean follow-up time is 12 +/- 6 months. The mean cold ischemia time was 9 +/- 3 hours. There were no cases of primary graft nonfunction. Thirty-day and 1-year patient survivals were 99% and 93%. The 30-day and 1-year graft survivals were 96% and 93%. There were five grafts lost, including three within the first month (two venous and one arterial thrombosis). There was one case of chronic rejection and one noncompliance. All other patients were insulin-independent by discharge. Serum fasting blood glucose and serial amylase remained comparable at all intervals posttransplantation. Within this range of cold ischemia time, HTK appears to provide effective pancreas preservation.
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PMID:Follow-up experience using histidine-tryptophan ketoglutarate solution in clinical pancreas transplantation. 1629 49

Glycine reduces ischemia-reperfusion injury after experimental liver transplantation. We hypothesized that glycine might also protect right heart function in an isovolumic cardiac transplantation model. In six domestic donor pigs 150 ml of a 300 mmol L-glycine solution were administered intravenously. The hearts were then arrested with histidine-tryptophan-ketoglutarate solution. Animals without prior glycine infusion served as controls (n = 6). After 4 h of ischemia, hearts were transplanted into recipients. An isovolumic model was used in which the right ventricular (RV) volume was controlled in vivo using an intracavitary high-compliance balloon. After 1 and 2 h of reperfusion the RV balloon volume was gradually increased and the developed pressures were recorded (P(developed) = P(systolic) - P(diastolic)). Right ventricular failure was defined as a decrease in developed intracavitary pressure. Glycine hearts could be loaded with a significantly increased volume after 1 h (glycine: 53 +/- 13.7 ml vs. control: 32 +/- 11.7 ml; P = 0.015) and after 2 h (67 +/- 18.6 ml vs. 43 +/- 8.2 ml; P = 0.018). Maximal RV developed pressures were not significantly different between groups. Postischemic RV end-diastolic compliance was significantly higher in glycine-treated animals (P = 0.04). Glycine protects early postischemic RV compliance, but has no important influence on maximal developed pressures.
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PMID:Glycine application and right heart function in a porcine heart transplantation model. 1644 71

Melatonin is a product of the amino acid tryptophan in the pineal gland. Once synthesized, the specific mechanisms governing the release of melatonin from the pineal gland and its functions are largely unknown. Besides its regulatory role in circadian rhythms in mammals, because of its widespread subcellular distribution, melatonin contributes to the reduction of oxidative damage in both the lipid and the aqueous environments of the cell. This postulate is widely supported by the experimental observations showing that melatonin protects lipids in membranes, proteins in the cytosol, and DNA in the nucleus and mitochondria from free radical damage. Melatonin thus reduces the severity of disease conditions where free radicals are implicated. The direct free radical scavenging effects of melatonin are receptor independent. It has recently been shown that it has an ability to scavenge free radicals, including hydroxyl radicals, hydrogen peroxide, peroxyl radicals, singlet oxygen and nitric oxide (NO) and peroxynitrite anion. An excessive amount of NO, a free radical which is generated by the inducible form of NO synthase, is known to cause cytotoxic changes in cells. Hence, NO synthase is considered a pro-oxidative enzyme, and any factor that reduces its activity would be considered an antioxidant. Recent studies have shown that melatonin inhibits the activity of NO synthase, beside its NO and peroxynitrite scavenging activity. Thus, inhibition of NO production may be another means whereby melatonin reduces oxidative damage under conditions, such as ischemia-reperfusion, sepsis, etc, where NO seems to be important in terms of the resulting damage.
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PMID:Melatonin and nitric oxide. 1668 46


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