| Popis: |
In response to the host environment, Cryptococcus neoformans must rapidly reprogram its translatome from one which promotes growth to one which is responsive to host temperature and oxidative stress. This reprogramming is primarily driven through the Gcn2-mediated repression of translation initiation and Ccr4-mediated removal of abundant pro-growth mRNAs from the translating pool. Here we investigate the contributions of these two pathways to the translational response to stress, and show that the response to oxidative stress is primarily driven by Gcn2 whereas temperature and oxidative stress both require Ccr4. Temperature stress, but not oxidative stress, result in an increase in RNase I resistant disome. Further, eIF2α phosphorylation varies in response to the type and magnitude of stress, yet all tested conditions induce translation of integrated stress response (ISR) transcription factor Gcn4, but not necessarily the Gcn4-dependent transcription. Finally, we define the ISR regulon in response to oxidative stress in C. neoformans. Together this study identifies the differential response to host-relevant stressors in an environmental fungus which can adapt to the environment inside the human host. |
