CryoEM reveals that ribosomes in microsporidian spores are locked in a dimeric hibernating state

Translational control is an essential process for the cell to adapt to varying physiological or environmental conditions. To survive adverse conditions such as low nutrient levels, translation can be shut down almost entirely by inhibiting ribosomal function. Here we investigated eukaryotic hibernating ribosomes from the microsporidian parasite Spraguea lophii in situ by a combination of electron cryo-tomography and single-particle electron cryo-microscopy. We show that microsporidian spores contain hibernating ribosomes that are locked in a dimeric (100S) state, which is formed by a unique dimerization mechanism involving the beak region. The ribosomes within the dimer are fully assembled, suggesting that they are ready to be activated once the host cell is invaded. This study provides structural evidence for dimerization acting as a mechanism for ribosomal hibernation in microsporidia, and therefore demonstrates that eukaryotes utilize this mechanism in translational control. Electron cryo-microscopy revealed that ribosomes from microsporidian parasites were in a hibernating state, whereby the ribosomes form inactive pairs.

Automated summary

Translational control is a crucial process for cells to adapt to changing conditions. This study investigated the hibernating ribosomes in microsporidian parasites and revealed their unique dimerization mechanism. The findings provide structural evidence for ribosomal hibernation and demonstrate the utilization of dimerization in translational control by eukaryotes.