eIF2A is a translation initiation factor that can deliver the initiator methionyl-tRNA (Met-tRNAi) to the ribosome independently of the canonical eIF2 complex. Unlike eIF2, which is inhibited by phosphorylation during stress, eIF2A can continue translation under conditions where general translation is suppressed, making it particularly important for stress response proteins relevant to neurodegeneration.
eIF2A is a member of the eIF2 family but functions distinctly from the canonical eIF2 heterotrimer (eIF2α, eIF2β, eIF2γ). While eIF2 delivers Met-tRNAi in a GTP-dependent manner that is blocked by eIF2α phosphorylation during stress, eIF2A can deliver Met-tRNAi independently of GTP. This allows for translation of specific mRNAs even when the general translation is shut down.
| Property |
Value |
| Protein Name |
eIF2A (Eukaryotic Translation Initiation Factor 2A) |
| Gene |
EIF2A |
| UniProt ID |
Q9Y5Q3 |
| PDB Structure |
5DPF, 5H0P |
| Molecular Weight |
~150 kDa |
| Subcellular Localization |
Cytoplasmic |
| Protein Family |
eIF2 family |
eIF2A has a complex multi-domain structure:
¶ N-Terminal Domain
- Contains multiple HEAT repeats
- Involved in RNA binding
- Met-tRNAi binding site
¶ Middle Domain
- Stabilizes the initiation complex
- Interacts with ribosomal subunits
¶ C-Terminal Domain
- Contains additional HEAT repeats
- Regulatory functions
- tRNA binding pocket
- mRNA binding region
- Ribosome interaction surface
- Delivers Met-tRNAi independently of GTP
- Bypasses eIF2-alpha phosphorylation inhibition
- Important for certain viral and cellular mRNAs
- Activated during viral infection
- Important for ER stress response translation
- May help express stress-response proteins
- Integrated with unfolded protein response (UPR)
- Some viral RNAs use eIF2A preferentially
- Cellular mRNAs with complex 5' UTRs
- mRNAs encoding stress response proteins
- ER stress is a feature of AD neurons
- eIF2A may help express protective proteins
- Translation dysregulation is common in AD
- eIF2A phosphorylation affects AD pathology
- ER stress contributes to dopaminergic neuron death
- eIF2A may modulate survival pathways
- Unfolded protein response involvement
- eIF2A is important for antiviral translation
- Some viruses exploit eIF2A pathway
- Neurotropic viruses affect neurons
- ISRIB: eIF2B activator, enhances general translation
- Could modulate eIF2A-related pathways
- Targeting stress translation is complex
- Balance between protective and harmful effects needed
- Kim & Kim, EIF2A: a non-canonical translation initiation factor (2011)
- Grosely et al., The eIF2A homolog in stress response (2015)