Milina Hrehorovska scite author profile

Translational repression induced during reperfusion of the ischaemic brain is significantly attenuated by ischaemic preconditioning. The present work was undertaken to identify the components of the translational machinery involved and to determine whether translational attenuation selectively modifies protein expression patterns during reperfusion. Wistar rats were preconditioned by 5-min sublethal ischaemia and 2 days later, 30-min lethal ischaemia was induced. Several parameters were studied after lethal ischaemia and reperfusion in rats with and without acquired ischaemic tolerance (IT). The phosphorylation pattern of the a subunit of eukaryotic initiation factor 2 (eIF2) in rats with IT was exactly the same as in rats without IT, reaching a peak after 30 min reperfusion and returning to control values within 4 h in both the cortex and hippocampus. The levels of phosphorylated eIF4E-binding protein after lethal ischaemia and eIF4E at 30 min reperfusion were higher in rats with IT, notably in the hippocampus. eIF4G levels diminished slightly after ischaemia and reperfusion, paralleling calpain-mediated a-spectrin proteolysis in rats with and without IT, but they did not show any further decrease after 30 min reperfusion in rats with IT. The phosphorylated levels of eIF4G, phosphatidylinositol 3-kinase-protein B (Akt) and extracellular signal-regulated kinases (ERKs) were very low after lethal ischaemia and increased following reperfusion. Ischaemic preconditioning did not modify the observed changes in eIF4G phosphorylation. All these results support that translation attenuation may occur through multiple targets. The levels of the glucose-regulated protein (78 kDa) remained unchanged in rats with and without IT. Conversely, our data establish a novel finding that ischaemia induces strong translation of growth arrest and DNA damage protein 34 (GADD34) after 4 h of reperfusion. GADD34 protein was slightly up-regulated after preconditioning, besides, as in rats without IT, GADD34 levels underwent a further clear-cut increase during reperfusion, this time as earlier as 30 min and coincident with translation attenuation.

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Bürda

Hrehorovska

Bonilla

et al. 2003

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Although ischemic preconditioning of the heart and brain is a well-documented neuroprotective phenomenon, the mechanism underlying the increased resistance to severe ischemia induced by a preceding mild ischemic exposure remains unclear. In this study we have determined the effect of ischemic preconditioning on ischemia/reperfusion-associated translation inhibition in the neocortex and hippocampus of the rat. We studied the effect of the duration on the sublethal ischemic episode (3, 4, 5 or 8 min), as well as the amount of time elapsed between sublethal and lethal ischemia on the cell death 7 days after the last ischemic episode. In addition, the rate of protein synthesis in vitro and expression of the 72-kD heat shock protein (hsp) were determined under the different experimental conditions. Our results suggest that two different mechanisms are essential for the acquisition of ischemic tolerance, at least in the CA1 sector of hippocampus. The first mechanism implies a highly significant reduction in translation inhibition after lethal ischemia, especially at an early time of reperfusion, in both vulnerable and nonvulnerable neurons. For the acquisition of full tolerance, a second mechanism, highly dependent on the time interval between preconditioning (sublethal ischemia) and lethal ischemia, is absolutely necessary; this second mechanism involves synthesis of protective proteins, which prevent the delayed death of vulnerable neurons.

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Milina Hrehorovska

Ischaemic preconditioning in the rat brain: effect on the activity of several initiation factors, Akt and extracellular signal‐regulated protein kinase phosphorylation, and GRP78 and GADD34 expression

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