Mechanism of translational control by partial phosphorylation of the alpha subunit of eukaryotic initiation factor 2.

Catalysis of ternary complex formation by the GDP exchange factor (GEF), in the presence of Mg2+, is blocked by phosphorylation of the alpha subunit of the eukaryotic initiation factor 2 (eIF-2). We proposed earlier that this phosphorylation interferes with the interaction between eIF-2 and GEF (then termed ESP). If so, inhibition should be related to the extent of phosphorylation. However, work in other laboratories indicated that in fully inhibited, heme-deficient lysates only 20-40% of the eIF-2 is phosphorylated. To understand the nature of the molecular lesion in eIF-2-alpha phosphorylation we used a system of pure components in which the rate of exchange of eIF-2-bound [3H]GDP with unlabeled GDP (via the reaction eIF-2-GDP + GEF in equilibrium eIF-2-GEF + GDP) was measured by using mixtures of eIF-2(alpha P) X [eH]GDP and eIF-2 X [3H]GDP in different proportions at constant concentration of eIF-2 X GEF. If, for example, the ratio of eIF-2 X GEF to total (phosphorylated and unphosphorylated) eIF-2 X [3H]GDP was 0.25, the exchange was found to be maximally inhibited when the proportion of eIF-2(alpha P) X [3H]GDP in hte mixture reached 25%. This suggests that the reaction stops because the available GEF is trapped in an inactive complex with eIF-2(alpha P). In the absence of free GEF, eIF-2 would not be able to recycle and initiation would come to a standstill when the available eIF-2 is tied up as eIF-2 X GDP. The trapping of GEF by eIF-s(alpha P) is strongly supported by the following observation. Incubation of eIF-2 X GEF with excess [3H]GDP leads to the formation of eIF-2 X [3H] GDP and free GEF and, if eIF-2(alpha 32P) X GDP is also present, all of the GEF is converted to eIF-2(alpha 32P) X GEF. This suggests that, whereas the equilibrium of the reaction eIF-2 X GEF + GDP in equilibrium eIF-2 X GDP + GEF favors the formation of free GEF, the equilibrium of the reaction eIF-2(alpha P) X GDP + GEF in equilibrium eIF-2(alpha P) X GEF + GDP is in favor of the association of GEF to eIF-2(alpha P).