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:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prolonged starvation produces dramatic changes both in the lysosomal properties of the heart and in its energy stores and, therefore, might be expected to alter some of the characteristic cardiac responses to ischemia. To test this possibility we ligated the circumflex coronary artery of rabbits that had been fed normally or starved for 6 days. Ultrastructural evidence of myocytic damage following 30 to 120 minutes of ischemia was much less severe in the starved animals than in the normally fed group. The development of signs of irreversible injury (e.g., osmiophilic densities in mitochondria) was delayed for 1 hour or more by starvation. A similar delay occurred in the biochemical redistribution of cathepsin D activity and in the cytoplasmic release of acid hydrolases from lysosomes and sarcoplasmic reticulum. These results indicate a marked protective effect of starvation against myocardial ischemia. In addition, both in starved and in fed animals, ischemically induced release of lysosomal enzymes was closely linked temporally to the development of subcellular damage.
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PMID:Resistance to ischemic damage in hearts of starved rabbits: Correlation with lysosomal alterations and delayed release of cathepsin D. 740 33

Data from recent studies suggest that donor fasting imparts a beneficial effect on the viability of transplanted hepatic allografts. Because starvation may temporarily inactivate Kupffer cells, and because these cells are the likely mediators of liver injury after prolonged preservation-reperfusion, the purpose of this study is to establish a link between improved organ viability and Kupffer cell inactivation caused by donor allograft fasting. In an in vivo rat liver transplant model, 48 hours of donor fasting (1) improved allograft viability, (2) significantly decreased Kupffer cell phagocytosis, and (3) significantly decreased cytokine (tumor necrosis factor [TNF]) production postrevascularization. These data validate work from previous studies demonstrating that donor fasting improves allograft viability and furthermore support our previous research implicating activation of Kupffer cells as a causative agent of cold ischemia-preservation injury.
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PMID:Inactivation of Kupffer cells after prolonged donor fasting improves viability of transplanted hepatic allografts. 755 76

The objective of this study was to determine the role of cyclosporin A (CsA) on cold-restraint-induced gastric lesions. Animals were subjected to 3 h immobilization at 4 degrees C in plastic restraining devices following a starvation period of 48 h. Gastric samples were obtained for the measurement of myeloperoxidase (MPO) activity, an index of number of peroxidase positive cells and thiobarbituric acid-reactive substances (TBARS; lipid peroxidation). Animals were pretreated with CsA which is a potent immunosuppressant and inhibits ischemia/reperfusion-induced polymorphonuclear leukocyte (PMN) infiltration. Cold-restraint administration significantly elevated the tissue MPO activity and TBARS formation. CsA pretreatment significantly reduced the severity of cold-restraint-induced gastric lesions while attenuating the elevated MPO measurements observed during cold-restraint administration. Animals rendered neutropenic with antineutrophil serum (ANS) exhibited significantly less gastric mucosal injury normally observed after cold-restraint stress. Neither CsA nor ANS treatment effected the elevated TBAR levels, indicating that PMNs are not involved in the lipid peroxidation process observed after cold-restraint stress. In conclusion, the results of this study indicate that CsA is capable of inhibiting cold-restraint-induced gastric mucosal injury and can attenuate the cold-restraint-induced increases in gastric MPO measurements. Our results also indicate that PMNs may be the important mediators of cold-restraint-induced gastric lesions.
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PMID:Cyclosporin A reduces the severity of cold-restraint-induced gastric lesions: role of leukocytes. 765 47

Critical illness is characterized by the presence of several factors that can cause marked alterations in the structure and function of multiple organ systems (1-2). These factors include injury, ischemia, sepsis, and starvation (Fig. 1). It is common for more than one of these problems to be present in the individual patient. Our current understanding of the effect of these various factors on intestinal structure and function has increased markedly during the past decade (3). Furthermore, the patterns of intestinal dysfunction that occur in response to these conditions have also been better characterized. Although malabsorption and motility disorders have long been recognized as clinical problems, more recently loss of intestinal barrier function and immune dysfunction have gained attention. This improved understanding of the response of the intestine to critical illness may lead to prevention of intestinal failure or permit more specific therapy when it occurs. The goals of this manuscript are to describe the response of the small intestine to critical illness and to identify potential therapeutic strategies for preventing and treating intestinal failure in this setting.
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PMID:The intestinal response to critical illness. 784 84

1. Hypovolaemic shock associated with surgical trauma has been studied in a rat liver ischaemia-reperfusion model by determination of oxidative stress, lipid peroxidation and tissue infiltration of polymorphonuclear leucocytes. 2. Liver ischaemia alone resulted in slight liver oedema and polymorphonuclear leucocyte infiltration, a slight increase in thiobarbituric acid-reacting substances (an index of lipid peroxidation) and decreases in liver reduced glutathione and total radical-trapping antioxidant parameter, indices of oxidative stress. Ischaemia plus 30 min of reperfusion further increased liver oedema, polymorphonuclear leucocyte infiltration and thiobarbituric-acid reacting substances, and further decreased liver reduced glutathione and total radical-trapping antioxidant parameter. 3. After 60 and 90 min of reperfusion, oedema (40% increase), polymorphonuclear leucocyte infiltration (40-fold increase) and thiobarbituric-acid reacting substances (20-fold increase) were maximal, and liver reduced glutathione (75-95% decrease) and total radical-trapping antioxidant parameter (85-90% decrease) were at a minimum. 4. All parameters were exacerbated by 24 h starvation. Liver reduced glutathione closely paralleled total radical-trapping antioxidant parameter, and ischaemia alone depleted both by 30% in fed rats and 50% in fasted rats. 5. Oxidative stress and lipid peroxidation were associated more with the period of reperfusion and polymorphonuclear leucocyte infiltration. Polymorphonuclear leucocyte infiltration into lung also occurred after 90 min of liver reperfusion. 6. Possible mechanisms of hepatic ischaemia-reperfusion-induced oxidative stress are discussed.
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PMID:Studies in surgical trauma: oxidative stress in ischaemia-reperfusion of rat liver. 816 41

Successful liver transplantation is dependent upon many factors, one of which is the quality of the donor organ. Previous studies have suggested that the donor nutritional status may affect the outcome of liver transplantation and starvation, due to prolonged stay in the intensive care unit, may adversely affect the liver. In this study we have used the orthotopic rat liver transplant model to measure how fasting the donor affects the outcome of liver transplantation. Rat livers were preserved with UW solution either at 37 degrees C (warm ischemia for 45-60 min) or at 4 degrees C (cold ischemia for 30 or 44 hr). After preservation the livers were orthotopically transplanted and survival (for 7 days) was measured, as well as liver functions 6 hr after transplantation. After 45 min of warm ischemia 50% (3 of 6) animals survived when the liver was obtained from a fed donor about 80% (4 of 5) survived when the liver was obtained from a three-day-fasted donor. After 60 min warm ischemia no animal survived (0 of 8, fed group). However, if the donor was fasted for 3 days 89% (8 of 9) of the animals survived for 7 days. Livers cold-stored for 30 hr were 50% viable (3 of 6) and fasting for 1-3 days did not affect this outcome. However, if the donor was fasted for 4 days 100% (9 of 9) survival was obtained. After 44-hr preservation only 29% (2/7) of the recipients survived for 7 days. If the donor was fasted for 4 days, survival increased to 83% (5/6). Liver functions, bile production, and serum enzymes were better in livers from the fasted rats than from the fed rats. Fasting caused a 95% decrease in liver glycogen content. Even with this low concentration of glycogen, liver viability (animal survival) after warm or cold ischemia was not affected, and livers with a low glycogen content were fully viable. Thus liver glycogen does not appear to be important in liver preservation. This study shows that fasting the donor does not cause injury to the liver after warm or cold ischemia. In fact, the livers appeared to be better able to tolerate ischemia when obtained from fasted rats. Thus donor nutritional status may be an important factor for outcome of liver transplantation. Livers from fasted donors may be capable of tolerating long-term preservation better than livers from fed donors.
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PMID:Livers from fasted rats acquire resistance to warm and cold ischemia injury. 847 43

A study of substrate selection in the isolated heart was made using 13C NMR isotopomer analysis, a method that unequivocally identifies relative substrate utilization. This technique has several advantages over conventional approaches used to study this problem. It detects the labeling of metabolic end-products present in tissue, as opposed to more indirect methods such as measurement of respiratory quotient, arteriovenous differences, or specific activity changes in the added substrate. It also has advantages over methods such as 14CO2 release, which may involve dilution of label with unlabeled pools before CO2 release. Furthermore, it can measure the relative oxidation of up to four substrates in a single experiment, which other labeling techniques cannot conveniently achieve. Substrate selection was considered in light of its effects on myocardial efficiency and recovery from ischemia. A mixture of four substrates (acetoacetate, glucose, lactate, and a mixture of long chain fatty acids), present at physiological concentration (0.17, 5.5, 1.2, and 0.35 mM, respectively), was examined. This is the first use of such a mixture in the study of substrate selection in an isolated organ preparation. At these concentrations, it was found that fatty acids supplied the majority of the acetyl-CoA (49%), and a substantial contribution was also provided by acetoacetate (23%). This suggests that the ketone bodies are a more important substrate than generally considered. Indeed, normalizing the relative utilizations on the basis of acetyl-CoA equivalents, ketone bodies were by far the preferred substrate. The relative lactate oxidation was only 15%, and glucose oxidation could not be detected. No change in utilization was detected after 15 min of ischemia followed by 40 min of reperfusion. The change in substrate selection with afterload was examined, to mimic the stress-related changes in workload found with ischemia. Only minor changes were found. Substrate selection from the same group of substrates, but employing concentrations observed during starvation, was also assessed. This represents the state during which most clinical treatments and evaluations are performed. In this case, acetoacetate was the most used substrate (78%), with small and equal contributions from fatty acids and endogenous substrates; the oxidation of lactate was suppressed.
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PMID:Substrate selection in the isolated working rat heart: effects of reperfusion, afterload, and concentration. 858 60

Aurintricarboxylic acid (ATA) has been reported to protect PC12 cells and cultured neuronal cells from serum starvation-induced cell death, and hippocampal neurons from N-methyl D-aspartate- or ischemia-induced cell death in vivo. We have found that ATA activated tyrosine phosphorylation cascade in PC12 cells as growth factors. Here, we report that ATA prevents cell death under serum starvation and induces tyrosine phosphorylation also in human neuroblastoma SH-SY5Y cells. Furthermore, it was found that erbB4, a member of epidermal growth factor receptor family, is tyrosine-phosphorylated in response to ATA. Both, erbB4 and its ligand, neu differentiation factor (NDF)/ heregulin family, have been reported to be expressed abundantly in nervous system. Thus, tyrosine phosphorylation of erbB4 might explain the neuro-protective activity of ATA.
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PMID:Tyrosine phosphorylation of ErbB4 is stimulated by aurintricarboxylic acid in human neuroblastoma SH-SY5Y cells. 901 63

The brain is entirely dependent on a continual supply of nutrients for the production of energy and the maintenance of function. Brain attack is a good example of a condition where the loss of blood flow and the consequent deprivation of nutrients can be devastating in terms of both structure and function. The unique metabolic characteristics of the brain make it more susceptible than most other organs of the body to nutrient restriction and starvation. In addition, changes occur during ischemia that compromise nutrient consumption even with reperfusion. Clearly, improving the outcome following brain attack will require a restoration of nutrient consumption to meet the relatively high energetic demands of the brain, and novel interventions to offset any metabolic lesions induced by the insult or reperfusion injury.
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PMID:Nutrient consumption and metabolic perturbations. 911 98

In the central nervous system, interleukin (IL)-3 has been shown to exert a trophic action only on septal cholinergic neurons in vitro and in vivo, but a widespread distribution of IL-3 receptor (IL-3R) in the brain does not conform to such a selective central action of the ligand. Moreover, the mechanism(s) underlying the neurotrophic action of IL-3 has not been elucidated, although an erythroleukemic cell line is known to enter apoptosis after IL-3 starvation possibly due to a rapid decrease in Bcl-2 expression. This in vivo study focused on whether IL-3 rescued noncholinergic hippocampal neurons from lethal ischemic damage by modulating the expression of Bcl-xL, a Bcl-2 family protein produced in the mature brain. 7-d IL-3 infusion into the lateral ventricle of gerbils with transient forebrain ischemia prevented significantly hippocampal CA1 neuron death and ischemia-induced learning disability. TUNEL (terminal deoxynucleotidyltransferase-mediated 2'-deoxyuridine 5'-triphosphate-biotin nick end labeling) staining revealed that IL-3 infusion caused a significant reduction in the number of CA1 neurons exhibiting DNA fragmentation 7 d after ischemia. The neuroprotective action of IL-3 appeared to be mediated by a postischemic transient upregulation of the IL-3R alpha subunit in the hippocampal CA1 field where IL-3Ralpha was barely detectable under normal conditions. In situ hybridization histochemistry and immunoblot analysis demonstrated that Bcl-xL mRNA expression, even though upregulated transiently in CA1 pyramidal neurons after ischemia, did not lead to the production of Bcl-xL protein in ischemic gerbils infused with vehicle. However, IL-3 infusion prevented the decrease in Bcl-xL protein expression in the CA1 field of ischemic gerbils. Subsequent in vitro experiments showed that IL-3 induced the expression of Bcl-xL mRNA and protein in cultured neurons with IL-3Ralpha and attenuated neuronal damage caused by a free radical-producing agent FeSO4. These findings suggest that IL-3 prevents delayed neuronal death in the hippocampal CA1 field through a receptor-mediated expression of Bcl-xL protein, which is known to facilitate neuron survival. Since IL-3Ralpha in the hippocampal CA1 region, even though upregulated in response to ischemic insult, is much less intensely expressed than that in the CA3 region tolerant to ischemia, the paucity of IL-3R interacting with the ligand may account for the vulnerability of CA1 neurons to ischemia.
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PMID:Interleukin 3 prevents delayed neuronal death in the hippocampal CA1 field. 970 46


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