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)

Pyruvate plays a central role in intermediary metabolism. Pyruvate, however, is also a potent antioxidant and free radical scavenger, and numerous studies have shown that treatment with this compound can be salutary in numerous pathologic conditions that are thought to be mediated, at least in part, by redox-dependent phenomena. Unfortunately, aqueous solutions of pyruvate rapidly undergo an aldol-like condensation reaction to form 2-hydroxy-2-methyl-4-ketoglutarate (parapyruvate), a compound that is a potent inhibitor of a critical step in the mitochondrial tricarboxylic acid cycle. To circumvent this issue, our laboratory formulated a derivative of pyruvic acid, ethyl pyruvate, in a calcium- and potassium-containing balanced salt solution. We showed that treatment with this fluid could ameliorate much of the structural and functional damage to the intestinal mucosa caused by mesenteric ischemia and reperfusion in rats. In subsequent studies, we showed that treatment with ethyl pyruvate solution could improve survival in rodent models of hemorrhagic shock and resuscitation and also down-regulate a number of proinflammatory genes. Recently, ethyl pyruvate was also shown to improve survival in murine models of acute endotoxemia and bacterial peritonitis. Although the biochemical basis for the anti-inflammatory actions of pyruvate remain to be elucidated, this simple compound warrants further evaluation as a treatment for a number of conditions commonly encountered in the practice of critical care medicine.
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PMID:Ethyl pyruvate: a novel anti-inflammatory agent. 1254 77

Celsior, a new preservation solution in thoracic organ transplantation was evaluated for efficacy in cold preservation of human hepatocytes and compared with University of Wisconsin solution (UW) and histidine-tryptophan-ketoglutarate solution (HTK, Custodiol). Human hepatocyte cultures were preserved at 4 degrees C in Celsior, UW and HTK for 2, 6, 12, 24 and 48 h with 6 h of reperfusion. Levels of lactate dehydrogenase (LDH; cell necrosis), 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT; mitochondrial function), and adenosine 5'-triphosphate (ATP; loss of intracellular energy) were measured. Cell necrosis, mitochondrial dysfunction, and loss of ATP were significantly ( P<0.001, P<0.001, P<0.002, respectively) lower in Celsior than in HTK. The amount of cell necrosis and mitochondrial dysfunction in Celsior solution (CS) and UW was equal ( P=n.s.) up to 24 h and significantly lower in UW after 48 h ( P<0.001). Additionally, the intracellular level of ATP was significantly higher after ischemia ( P<0.001) and reperfusion from long-term ischemia (24, 48 h) ( P<0.002). We can conclude that Celsior was superior to HTK and equal to UW in the protection of human hepatocytes against cold preservation injury from ischemia and reperfusion. Furthermore, Celsior was effective in long-term preservation of human hepatocytes.
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PMID:Celsior solution compared with University of Wisconsin solution (UW) and histidine-tryptophan-ketoglutarate solution (HTK) in the protection of human hepatocytes against ischemia-reperfusion injury. 1269 41

Inhibition of complex I has been considered to be an important contributor to mitochondrial dysfunction in tissues subjected to ischemia-reperfusion. We have investigated the role of complex I in a severe energetic deficit that develops in kidney proximal tubules subjected to hypoxia-reoxygenation and is strongly ameliorated by supplementation with specific citric acid cycle metabolites, including succinate and the combination of -ketoglutarate plus malate. NADH: ubiquinone reductase activity in the tubules was decreased by only 26% during 60-min hypoxia and did not change further during 60-min reoxygenation. During titration of complex I activity with rotenone, progressive reduction of NAD+ to NADH was detected at >20% complex I inhibition, but substantial decreases in ATP levels and mitochondrial membrane potential did not occur until >70% inhibition. NAD+ was reduced to NADH during hypoxia, but the NADH formed was fully reoxidized during reoxygenation, consistent with the conclusion that complex I function was not limiting for recovery. Extensive degradation of cytosolic and mitochondrial NAD(H) pools occurred during either hypoxia or severe electron transport inhibition by rotenone, with patterns of metabolite accumulation consistent with catabolism by both NAD+ glycohydrolase and pyrophosphatase. This degradation was strongly blocked by alpha-ketoglutarate plus malate. The data demonstrate surprisingly little sensitivity of these cells to inhibition of complex I and high levels of resistance to development of complex I dysfunction during hypoxia-reoxygenation and indicate that events upstream of complex I are important for the energetic deficit. The work provides new insight into fundamental aspects of mitochondrial pathophysiology in proximal tubules during acute renal failure.
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PMID:Preservation of complex I function during hypoxia-reoxygenation-induced mitochondrial injury in proximal tubules. 1466 31

Adenosine 5'-triphosphate (ATP) depletion is a major cause of cellular injury during ischemia and reperfusion in organ transplantation. Therefore, histidine-tryptophan-ketoglutarate solution (HTK; alpha-ketoglutarate) and University of Wisconsin solution (UW; adenosine) were supplied with energy substrates to achieve graft viability. Nevertheless, their efficacy for maintaining the ATP level, particularly in human liver endothelial cells, was uncertain. Furthermore, it is of interest whether a high ATP level is beneficial in human liver endothelial cell viability. We used human liver endothelial cells between the 3rd and 6th passages in a cell culture model. Human liver endothelial cells were exposed to hypothermic preservation (4 degrees C) in HTK and UW for 2, 6, 12, 24 and 48 h with subsequent reperfusion of 6 h. ATP and lactate dehydrogenase (LDH) were measured after each interval. In comparison to HTK, UW demonstrates a statistically significantly higher level of ATP after each interval of ischemia (p < 0.001) and reperfusion (p < 0.002). Additionally, UW-preserved human liver endothelial cells exceed the ATP level of the warm control during all intervals of ischemia. The loss of cell viability (LDH) was statistically significantly higher after ischemia (p < 0.01) and reperfusion (p < 0.01) in HTK than in UW except after the interval of 48 h. In conclusion, adenosine was more effective than alpha-ketoglutarate in maintaining a high ATP level in human liver endothelial cells after ischemia and reperfusion. Different pathways of energy substrate utilization were a contributing factor. The beneficial effect of the higher ATP level caused by adenosine to human liver endothelial cell viability was limited to 24 h of ischemia. Beyond this ischemia time we could not prove a favorable impact of adenosine on human liver endothelial cells.
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PMID:Value of energy substrates in HTK and UW to protect human liver endothelial cells against ischemia and reperfusion injury. 1473 Feb 20

Reperfusion injuries after organ transplantation affect graft function and influence long-term graft survival. As hypothermic storage, which minimizes the extent of unspecific tissue injury after ischemia and reperfusion, is significantly influenced by the composition of preservation solutions, strategies to optimize the different components may lead to longer graft survival. In the present study the effects of the preservation solution B2 on early renal function and histopathological changes were compared to histidine-tryptophan-ketoglutarate solution (HTK, Bretschneider) in a model of isolated blood-perfused porcine kidneys. B2-preserved kidneys displayed a lower renal resistance and significantly better creatinine clearance as compared to HTK. Mean differences were also found for filtration fraction and sodium fraction reabsorption. The functional data were also related to histopathological changes. Together, these data indicate that the recently developed preservation solution B2 offers new principles of preservation and is a useful preservation solution for experimental isolated perfused kidney models. B2 may also be an interesting model for optimizing preservation within other organ perfusion models.
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PMID:Protective effects of B2 preservation solution in comparison to a standard solution (histidine-tryptophan-ketoglutarate/Bretschneider) in a model of isolated autologous hemoperfused porcine kidney. 1498 62

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

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

Of the serotonin occurring in the small bowel mucosa, 95% is present in enterochromaffine cells. The cold ischemia during small bowel transplantation results in mucosal injury and releasing of serotonin into the lumen. Because of it, the mucosal concentration of serotonin is decreasing. The aim of our study was to establish the correlation between changes in serotonin levels in small bowel mucosa during grafts preservation and cold ischemic time. Wistar rats (n= 35) weighing 322+/-18g, divided into five main groups (n= 7/group) according to the time of small bowel grafts preservation (0, 1, 6, 9, and 12 hours), were used as experimental animals. The grafts were preserved in 4 degrees C histidine-tryptophane-ketoglutarate (HTK) solution. Tissue samples for mucosal serotonin concentration measurement and for light microscopic evaluation were taken after predefined cold ischemic times. Quantitative histological assessment was made using the Park's small bowel wall injury grading scheme. The t-test for dependent samples was used for statistical analysis. The mean serotonin mucosal concentrations after 0, 1, 6, 9, and 12 hours of cold ischemic injury were 433.09+/-160.33, 402.6+/-120.53, 412.5+/-47.57 ng/mL, 190.8+/-45.88 and 145.2+/-16.78 ng/mL Statistically significant differences (p<0.05) were between 6, 9, and 12 hours of cold ischemia. Morphological changes of small bowel mucosa graded by Park's scheme after the same ischemic intervals were 0, 0.5+/-0.47, 0.97+/-0.41, 1.74+/-0.69, and 1.84+/-0.64. Statistically significant differences (p<0.05) were demonstrated between all preservation times except between 9 and 12 hours of cold ischemia. Morphological changes in small bowel mucosa correlated with cold ischemic time, as well as with serotonin mucosal concentration. These data indicate the possibility of use a serotonin concentration in small bowel mucosa as a parameter of small bowel grafts ischemic injury.
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PMID:Serotonin levels in the small bowel mucosa as a marker of ischemic injury during small bowel preservation. 1575 48

The aim of this study was to investigate the effect of Krebs cycle intermediates on basal and quinolinic acid (QA)- or iron-induced TBARS production in brain membranes. Oxaloacetate, citrate, succinate and malate reduced significantly the basal and QA-induced TBARS production. The potency for basal TBARS inhibition was in the order (IC50 is given in parenthesis as mM) citrate (0.37) > oxaloacetate (1.33) = succinate (1.91) > > malate (12.74). alpha-Ketoglutarate caused an increase in TBARS production without modifying the QA-induced TBARS production. Cyanide (CN-) did not modify the basal or QA-induced TBARS production; however, CN- abolished the antioxidant effects of succinate. QA-induced TBARS production was enhanced by iron ions, and abolished by desferrioxamine (DFO). The intermediates used in this study, except for alpha-ketoglutarate, prevented iron-induced TBARS production. Oxaloacetate, citrate, alpha-ketoglutarate and malate, but no succinate and QA, exhibited significantly iron-chelating properties. Only alpha-ketoglutarate and oxaloacetate protected against hydrogen peroxide-induced deoxyribose degradation, while succinate and malate showed a modest effect against Fe2+/H2O2-induced deoxyribose degradation. Using heat-treated preparations citrate, malate and oxaloacetate protected against basal or QA-induced TBARS production, whereas alpha-ketoglutarate induced TBARS production. Succinate did not offer protection against basal or QA-induced TBARS production. These results suggest that oxaloacetate, malate, succinate, and citrate are effective antioxidants against basal and iron or QA-induced TBARS production, while alpha-ketoglutarate stimulates TBARS production. The mechanism through which Krebs cycle intermediates offer protection against TBARS production is distinct depending on the intermediate used. Thus, under pathological conditions such as ischemia, where citrate concentrations vary it can assume an important role as a modulator of oxidative stress associated with such situations.
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PMID:Krebs cycle intermediates modulate thiobarbituric acid reactive species (TBARS) production in rat brain in vitro. 1589 26

Nutritional supplementation with glutamine, arginine and their precursors has been proposed to contribute to the protection against ischemia-reperfusion-related injuries. The aim of this study was to evaluate in an isolated perfused rat liver model the preventive effect of a 4-day oral ornithine alpha-ketoglutarate (OKG) supplementation against warm ischemia-reperfusion (I-R) injury, and the involvement of nitric oxide synthesis. Rats were fed a controlled regimen supplemented with either OKG (5 g kg(-1); n=15) or an isonitrogenous mixture of non-essential amino acids (Control; n=6) for 4 days. Livers were subsequently prepared for isolated perfusion experiments, including a 45 min no-flow ischemic period. The OKG-treated group was divided into two groups according to the absence (OKG; n=8) or presence of a NO-synthase inhibitor, L-N(omega)-nitro-arginine methyl ester (OKG L-NAME; n=7) during liver perfusion. Liver cytolysis after ischemia was demonstrated by an elevated alanine aminotransferase release during the last 15 min of reperfusion that was significantly higher in the OKG-L-NAME group. Tumor necrosis factor alpha (TNF(alpha)) production was transiently increased only in the control group just after ischemia. At the end of the reperfusion period, liver superoxide dismutase activity was significantly lower in the OKG-L-NAME group compared to control animals. Dietary OKG administration had only a limited effect in this model of mild hepatic I-R, leading mainly to reduced TNF(alpha) production. As the content of lipid peroxidation products was not modified, it seems that OKG acts on the inflammatory response rather than on oxidative reactions. This action can tentatively be attributed to the role of OKG as a glutamine precursor rather than to the synthesis of arginine and nitric oxide.
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PMID:Does dietary ornithine alpha-ketoglutarate supplementation protect the liver against ischemia-reperfusion injury? 1589 23


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