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)

Retinal ganglion cell protein synthesis and slow axonal protein flow have been measured in eight optic nerves from four macacus rhesus monkeys after producing ganglion cell ischemia. Comparison of the slow axonal protein flowing into the two optic nerves of the same control animal reveals a variability of up to 27 per cent. Following central retinal artery ligation, infarction of the retinal ganglion cells was reflected by a 97 per cent reduction in the radioactively labeled protein within the optic nerve. This profound reduction in labeled protein within the nerve confirmed that only ganglion cell dependent intra-axonal protein flow was being measured. Ischemia to the ganglion cell axons, with preservation of blood flow to the cell soma, was obtained in two optic nerves from different animals by severing all the posterior ciliary vessels entering about the optic nerve. Six weeks later, only a modest histologic loss of axons was present in these optic nerves. However, a profound reduction (up to 97 per cent) in labeled optic nerve protein was found at four days following intravitreal leucine injection. This is the time when the optic nerve slow axonal protein flow is dominated by the foveomacular ganglion cells. The reduction in slow axonal protein flow corresponds histologically to a preferential retrograde degeneration of the foveomacular ganglion cells, suggesting increased sensitivity of the smaller foveal axons to the induced ischemia. Electrophysiologic measurements support this conduction.
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PMID:Slow axonal protein transport and visual function following retinal and optic nerve ischemia. 4 18

Tritiated leucine was injected into the vitreous of rhesus monkey eyes to make it available for protein synthesis by the ganglion cells. The short posterior ciliary arteries were cut three hours later or several weeks prior to the leucine injection. A reduction of labeled protein within the retrolaminar optic nerve was seen in all eyes so treated. Autoradiography revealed a diffuse reduction of axoplasmic transport into these optic nerve heads. There was consistent evidence of focal obstruction of labeled protein at the interface between the lamina scleralis and retrolaminar optic nerve. Vacuoles appeared in the most severely affected areas. These histologic changes were followed by gliosis in the areas of ischemic damage. Glaucomatous cupping of the optic nerve head was not seen within six weeks following the induced ischemia.
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PMID:The effect of interruption of the short posterior ciliary arteries on slow axoplasmic transport and histology within the optic nerve of the rhesus monkey. 5 49

Pieces of liver (in vitro ischemia) and isolated microsomes were subjected to incubation at 4 degrees C and 37 degrees C for various time intervals. The effects on microsomal protein, phospholipids, and cholesterol and on microsomal phosphatases and electron transport enzymes were followed as a functional of time and temperature. NADH-cytochrome c reductase was very labile and was completely inactivated by 1 h, whereas G6Pase lost 50% of its activity after 2 h at 37 degrees C. IDPase and NADPH-cyt. c red. were of intermediate susceptibility whereas cytochromes b5 and P-450 were the most stable enzymes assayed. After 24 h of incubation of isolated microsomes at 37 degrees C there was no significant detachment of membrane components (protein, PLP or cholesterol), indicating that the inactivation of the enzymes was not primarily attributable to their solubilization. Instead, experiments with 14C-leucine and 14C-glycerol prelabeled microsomes demonstrated that the proteins detached from microsomes during incubation originated mainly from the intravesicular space due to repture of the microsomal membranes. The addition of a lysosomal extract during incubation did not alter either the rate of inactivation of the enzymes or the proportion of solubilized membrane components indicating that attack from the outside by proteolytic enzymes is not the mechanism for enzyme inactivation. There was no apparent correlation between the rates of inactivation of enzymes in vitro and their calculated half-lives in vivo or their postulated intramembranous localization. Ultrastructurally, enzyme inactivation was initially associated with alterations of the microsomal membranes, such as vesicle aggregation, membrane rupture, loss of unit membrane structure, and subsequently, thickening of membranes and transformation of the microsomes into nonrecognizable amorphous material.
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PMID:Effect of storage and in vitro ischemia on the ultrasture of microsomal membranes and on microsomal enzymes. 18 24

The high speed supernatant (cell sap) obtained from ischemic livers is less efficient than normal in supporting protein synthesis in cell-free systems. Cell saps from ischemic livers contain a reduced amount of transfer-RNA; the transfer of leucine to the specific tRNA is impaired; the incorporation of leucyl-tRNA into protein is reduced, although less than the incorporation of the corresponding amino acid. The binding of aminoacyl-tRNA to ribosomal subunits and exogenous messengers (polyuridylic acid and uridyl-3'-5'-uridyl-3'-5'-guanosine), is less efficient with ischemic than with normal cells sap, thus indicating a defective activity of elongation factor 1. The total amount-and possibly the intracellular distribution-of elongation factor 2 is also altered in ischemic livers. These changes, which are the expression of a multifunctional deficit of ischemic cell sap, are in general correlated with the duration of ischemia and do not seem to appear around the "point of no return" of the ischemic liver cells.
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PMID:Protein synthesis in liver injury. Soluble factors of protein synthesis in the cytosol from ischemic rat liver. 126 41

The effect of single or repeated episodes of cerebral ischemia on protein biosynthesis and neuronal injury was studied in halothane-anesthetized gerbils by autoradiography of [14C]leucine incorporation into brain proteins and light microscopy. For quantification of the protein synthesis rate, the steady-state precursor pool distribution space for labeled and unlabeled free leucine was determined by clamping the specific activity of [14C]leucine in plasma, and by measuring free tissue leucine in samples taken from various parts of the brain. Control values of protein synthesis were 14.6 +/- 2.2, 5.8 +/- 2.3, 14.2 +/- 3.1, and 10.0 +/- 3.8 nmol g-1 min-1 (means +/- SD) in the frontal cortex, striatum, CA1 sector, and thalamus, respectively. Following a single episode of 5 or 15 min of ischemia, protein synthesis recovered to normal in all brain regions except the CA1 sector, where it returned to only 50% of control after 6 h and to less than 20% after 3 days of recirculation. After three episodes of 5 min of ischemia spaced at 1 h intervals, protein synthesis remained severely suppressed in all brain regions after both 6 h and 3 days of recirculation. Inhibition of protein synthesis after 6 h predicted histological injury after 3 days of recirculation. In animals submitted to a single episode of 5 or 15 min of ischemia, histological damage was restricted to the CA1 sector but injury occurred throughout the brain after three episodes of 5 min of ischemia. These observations demonstrate that persisting inhibition of protein synthesis following cerebral ischemia is an early manifestation of neuronal injury. Prevention of neuronal injury requires restoration of a normal protein synthesis rate.
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PMID:Neuronal damage after repeated 5 minutes of ischemia in the gerbil is preceded by prolonged impairment of protein metabolism. 156 37

Small intestinal mucosal weight and nutrient absorption are significantly diminished early after cutaneous thermal injuries. Because these intestinal properties are highly dependent on rates of nucleic acid and protein synthesis, in vivo incorporation of thymidine, uridine, and leucine into small intestinal deoxyribonucleic acid, ribonucleic acid, and proteins were measured. Deoxyribonucleic acid synthesis was markedly decreased with the lowest thymidine incorporation in the jejunum (p less than 0.01); these findings were confirmed by autoradiographic identification of radiolabeled nuclei in the intestinal crypts. Protein synthesis was decreased by 6 h postinjury (p less than 0.01) but had returned to normal by 48 h. Consistent with a decreased rate of protein synthesis, ribonucleic acid synthesis was also decreased 18 h postinjury (p less than 0.01). These decreased deoxyribonucleic acid, ribonucleic acid, and protein synthesis rates are not likely a result of ischemia because in other studies of this injury model, intestinal blood flow was not significantly changed by the burn injury. Potentially, factors initiating the acute inflammatory reaction may directly inhibit nucleic acid and protein synthesis and lead to alterations in nutrient absorption and intestinal barrier function after injury.
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PMID:Injury-induced inhibition of small intestinal protein and nucleic acid synthesis. 169 45

The effect of ischemia on hepatic protein synthesis during sepsis is not known, but is of clinical relevance, since hepatic blood flow decreases during the late phase of sepsis. In this study, synthesis of acute-phase proteins was measured in perfused livers of rats 16 hours after sham operation or cecal ligation and puncture. Livers from each group had 45 minutes of complete ischemia or control perfusion. Protein synthesis was measured during two hour perfusion after the ischemia or control period, by determining incorporation of 3H-leucine into total secreted trichloracetic acid precipitated proteins, immunoprecipitated complement component C3 and albumin and phosphotungstenate-precipitated alpha 1-acid glycoprotein. Lactate, glutamine-oxalacetic transaminase (GOT) and glutamic-pyruvic transaminase (GPT) levels in the perfusate were measured during preischemic and postischemic perfusion. Tissue glutathione levels were measured at the end of the perfusion. Synthesis of alpha 1-acid glycoprotein was increased by 100 per cent and albumin synthesis decreased by 46 per cent in septic livers, consistent with an acute-phase response and apparent downregulation of albumin synthesis during early sepsis. Synthesis rates were reduced by 50 to 60 per cent after ischemia in perfused livers from sham operated rats and 70 to 80 per cent in livers from septic rats. Hepatic production of interleukin-1 was not different between the groups during perfusion. GOT and GPT levels increased significantly during ischemia of both nonseptic and septic livers and rapidly returned toward baseline during reperfusion. Lactate levels were higher in perfusate of septic than of nonseptic livers before ischemia and increased further during ischemia. The results suggest that ischemia inhibits production of secreted hepatic proteins similarly in nonseptic and septic livers, but perhaps to a slightly greater extent in septic livers.
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PMID:Effect of ischemia on protein synthesis in the septic liver. 170 61

Excitatory amino acids (EAAs) have been implicated to play a part in the development of hypoxic-ischemic brain injury in the neonate. The aim of the present study was to follow changes of intra- and extracellular (microdialysis) amino acids in the cerebral cortex in a model where cortical hypoxic-ischemic damage is produced consistently. Hypoxic-ischemia (unilateral ligation of the carotid artery + 2 h of exposure to 7.8% oxygen) caused a depletion of tissue ATP, phosphocreatine and glucose with a concomittant accumulation of AMP and lactic acid in cortical tissue. These changes were accompanied by a decrease of tissue aspartate and glutamine whereas the contents of gamma-aminobutyric acid (GABA), phenylalanine, leucine, isoleucine, valine and alanine increased. In the extracellular fluid GABA, glutamate, aspartate, taurine, glycine and alanine all increased multi-fold during hypoxic-ischemia. Aspartate and glutamate returned to near initial levels 2 h after the end of the insult, whereas the elevation of glycine persisted during recovery. In conclusion, the high extracellular levels of EAAs and glycine may exert injurious effects during and after hypoxic-ischemia.
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PMID:Intra- and extracellular changes of amino acids in the cerebral cortex of the neonatal rat during hypoxic-ischemia. 178 36

In a clinical setting, the effect of Eurocollins (EC) and University of Wisconsin solution (UW) on liver grafts were studied in the early reperfusion phase of liver transplantation. Blood samples were drawn before and after declamping of the portal vein in a group of 11 transplants with EC-perfused livers, and a group of 12 transplants with UW-perfused livers. Parenchymal damage was assessed by the LDH, AST, and ALT, and purine degradation by measuring the uric acid levels. Metabolic function was determined by the serum bile acids and the plasma amino acids, i.e. (valine + leucine + isoleucine)/(phenylalanine + tyrosine) ratio. Donor and pretransplant recipient parameters were almost identical. The cold ischemia time of both groups differed significantly. The results show the following: a significant difference between both the LDH and the uric acid levels in the two groups was revealed, with a smaller increase of the LDH levels and no increase of the uric acid levels in the UW group. Metabolic activity, as measured from the bile acids and the amino acid profile in the peripheral blood, was identical in both groups. We conclude that both EC-stored and UW-stored liver grafts show immediate metabolic function after reperfusion. The amount of metabolic function was equal in both groups, notwithstanding longer cold ischemia time in the UW group. In addition, more parenchymal damage occurred in the EC group.
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PMID:Cellular damage and early metabolic function of transplanted livers stored in Eurocollins or University of Wisconsin solution. 180 31

We have used brain (dog, rat) and spinal cord (dog, rabbit) cell-free systems to study early postischaemic inhibition of protein synthesis. Ischaemia alone produced a relatively small decrease in activity of all subcellular systems used. When 15 min of normoxic reperfusion was used, more than 30% decrease (p less than 0.01) in [14C]-leucine incorporation was detected. A translational inhibitor that appeared in the postribosomal supernatant fraction at the early stage of reperfusion reduced translational capacity of an initiating cell-free system. It also phosphorylated the small (38 kDa) subunit of eukaryotic initiation factor 2 (eIF-2) in vitro. Effect of the inhibitor can be reversed by addition of partially purified intact eIF-2 and/or high concentration (2 mmol/l) of GTP. A prevention of postischaemic free oxygen radical formation by the reoxygenation with hypoxaemic blood, containing 37.5 mm Hg O2 at 0-5 min and 56 mm Hg O2 at 6-10 min of recirculation, that was followed by 5 min of normoxic reperfusion, resulted in a significant increase (p less than 0.02) of polypeptide chain synthesis in vitro when compared with normoxic reperfusion.
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PMID:Mechanism of protein synthesis inhibition in CNS during postischaemic reperfusion. 181 18


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