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Global Brain Ischemia and Reperfusion: Modifications in Eukaryotic Initiation Factors Associated with Inhibition of Translation Initiation
Authors:&dagger  Donald J. DeGracia,&dagger  Robert W. Neumar,&dagger  Blaine C. White, Gary S. Krause
Affiliation:Departments of Emergency Medicine and; Physiology, Wayne State University School of Medicine, Detroit, Michigan, U.S.A.
Abstract:Abstract: We used in vitro translation and antibodies against phosphoserine and the eukaryotic initiation factors eIF-4E, eIF-4G, and eIF-2α to examine the effects of global brain ischemia and reperfusion on translation initiation and its regulation in a rat model of 10 min of cardiac arrest followed by resuscitation and 90 min of reperfusion. Translation reactions were performed on postmitochondrial supernatants from brain homogenates with and without aurintricarboxylic acid to separate incorporation due to run-off from incorporation due to peptide synthesis initiated in vitro. The rate of leucine incorporation due to in vitro-initiated protein synthesis in normal forebrain homogenates was ∼0.4 fmol of leucine/min/µg of protein and was unaffected by 10 min of cardiac arrest, but 90 min of reperfusion reduced this rate 83%. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and western blots of these homogenates showed that neither 10 min of global brain ischemia nor 90 min of reperfusion induced significant alterations in the quantity or serine phosphorylation of eIF-4E. However, we observed in all 90-min-reperfused samples eIF-4G fragments that also bound eIF-4E. The amount of eIF-2α was not altered by ischemia or reperfusion, and immunoblotting after isoelectric focusing did not detect serine-phosphorylated eIF-2α in normal samples or in those obtained after ischemia without reperfusion. However, serine-phosphorylated eIF-2α was uniformly present after 90 min of reperfusion and represented 24 ± 3% of the eIF-2α in these samples. The serine phosphorylation of eIF-2α and partial fragmentation of eIF-4G observed after 90 min of reperfusion offer an explanation for the inhibition of protein synthesis.
Keywords:Brain ischemia    Protein synthesis    Translation initiation    Initiation factors
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