Intersubunit and interprotein interactions of alpha- and beta-subunits of human eIF2: Effect of phosphorylation.

Purified recombinant human subunits of eukaryotic initiation factor 2 (eIF2) expressed in bacteria are found to interact with each other to form alphabeta, alphagamma, and betagamma complexes in a pull-down experiment. Recombinant phosphorylated human eIF2alpha that cannot interact with purified eIF2B, the GDP/GTP exchange factor of eIF2, however interacts efficiently with eIF2B along with the beta-subunit of eIF2 of the rabbit reticulocyte lysates and also with the purified recombinant beta-subunit. These findings therefore suggest that the beta-subunit of eIF2 mediates the productive and non-productive interactions between eIF2 and 2B. Recombinant alpha and beta-subunits serve as substrates for not only kinases but also for caspase 3 and interestingly phosphorylated subunits resist caspase action. Phosphorylation also modifies the beta-subunit's interaction with Nck1, a cofactor of eIF2alpha phosphatase, but not with eIF5, the GTPase activating protein. These findings suggest that subunits of mammalian eIF2 interact with each other and the beta-subunit plays a critical role both in the regulation and function of eIF2.

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