The β/Gcd7 Subunit of Eukaryotic Translation Initiation Factor 2B (eIF2B), a Guanine Nucleotide Exchange Factor, Is Crucial for Binding eIF2 In Vivo

Eukaryotic translation initiation factor 2B (eIF2B) is the guanine nucleotide exchange factor (GEF) for eukaryotic translation initiation factor 2, which stimulates formation of the eIF2-GTP-Met-tRNAi Met ternary complex (TC) in a manner inhibited by phosphorylated eIF2 [eIF2(αP)]. While eIF2B contains five subunits, the ε/Gcd6 subunit is sufficient for GEF activityin vitro . The δ/Gcd2 and β/Gcd7 subunits function with α/Gcn3 in the eIF2B regulatory subcomplex that mediates tight, inhibitory binding of eIF2(αP)-GDP, but the essential functions of δ/Gcd2 and β/Gcd7 are not well understood. We show that the depletion of wild-type β/Gcd7, three lethal β/Gcd7 amino acid substitutions, and a synthetically lethal combination of substitutions in β/Gcd7 and eIF2α all impair eIF2 binding to eIF2B without reducing ε/Gcd6 abundance in the native eIF2B-eIF2 holocomplex. Additionally, β/Gcd7 mutations that impair eIF2B function display extensive allele-specific interactions with mutations in the S1 domain of eIF2α (harboring the phosphorylation site), which binds to eIF2B directly. Consistent with this, β/Gcd7 can overcome the toxicity of eIF2(αP) and rescue native eIF2B function when overexpressed with δ/Gcd2 or γ/Gcd1. In aggregate, these findings provide compelling evidence that β/Gcd7 is crucial for binding of substrate by eIF2Bin vivo , beyond its dispensable regulatory role in the inhibition of eIF2B by eIF (αP).