eIF2 independently binds two distinct eIF2B subcomplexes that catalyze and regulate guanine–nucleotide exchange
Abstract
eIF2B is a heteropentameric guanine-nucleotide exchange factor essential for protein synthesis initiation in eukaryotes. Its activity is inhibited in response to starvation or stress by phosphorylation of the α subunit of its substrate, translation initiation factor eIF2, resulting in reduced rates of translation and cell growth. We have used an in vitro nucleotide-exchange assay to show that wild-type yeast eIF2B is inhibited by phosphorylated eIF2 [eIF2(αP)] and to characterize eIF2B regulatory mutations that render translation initiation insensitive to eIF2 phosphorylation in vivo. Unlike wild-type eIF2B, eIF2B complexes with mutated GCN3 or GCD7 subunits efficiently catalyzed GDP exchange using eIF2(αP) as a substrate. Using an affinity-binding assay, we show that an eIF2B subcomplex of the GCN3, GCD7, and GCD2 subunits binds to eIF2 and has a higher affinity for eIF2(αP), but it lacks nucleotide-exchange activity. In contrast, the GCD1 and GCD6 subunits form an eIF2B subcomplex that binds equally to eIF2 and eIF2(αP). Remarkably, this second subcomplex has higher nucleotide-exchange activity than wild-type eIF2B that is not inhibited by eIF2(αP). The identification of regulatory and catalytic eIF2B subcomplexes leads us to propose that binding of eIF2(αP) to the regulatory subcomplex prevents a productive interaction with the catalytic subcomplex, thereby inhibiting nucleotide exchange.
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Present addresses: 3Department of Biochemistry, School of Life Sciences, University of Hyderabad, Hyderabad-500 046, Andhra Pradesh, India; 4Department of Anatomy and Physiology, University of Dundee, Dundee, DD1 4HN, Scotland, UK.
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Corresponding author.
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E-MAIL ahinnebusch{at}nih.gov; FAX (301) 496-6828.
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- Received October 20, 1997.
- Accepted December 15, 1997.
- Cold Spring Harbor Laboratory Press










