Link to bioRxiv paper:
http://biorxiv.org/cgi/content/short/2023.06.29.547006v1?rss=1
Authors: Jha, M. P., Kumar, V., Sharma, L., Ghosh, A., Mapa, K.
Abstract:
Sse1 is a cytosolic Hsp110 molecular chaperone of yeast, Saccharomyces cerevisiae. Its multifaceted roles in cellular protein homeostasis as Nucleotide Exchange Factor (NEF), as protein-disaggregase and as a Chaperone linked to Protein Synthesis (CLIPS), are well documented. In the currently study, we show that SSE1 genetically interacts with IRE1 and HAC1, the Endoplasmic Reticulum-Unfolded Protein Response (ER-UPR) sensors implicating its role in ER protein homeostasis. Interestingly, absence of this chaperone imparts unusual resistance to tunicamycin-induced ER stress which depends on the intact Ire1-Hac1 mediated ER-UPR signalling. Furthermore, cells lacking SSE1 show ER-stress-responsive inefficient reorganization of translating ribosomes from polysomes to monosomes and increased monosome content that drive uninterrupted protein translation. In consequence, the kinetics of ER-UPR is starkly different in sse1{Delta} strain where we show that stress response induction and restoration of homeostasis is prominently faster in contrast to the wildtype (WT) cells. Importantly, Sse1 plays a critical role in controlling the ER-stress mediated cell division arrest which is escaped in sse1{Delta} strain during chronic tunicamycin stress. Consequently, sse1{Delta} strain shows significantly higher cell viability in comparison to WT yeast, following short-term as well as long-term tunicamycin stress. In summary, we demonstrate a new role of Sse1 in ER protein homeostasis where the chaperone genetically interacts with ER-UPR pathway, controls the protein translation during ER stress and the kinetics of ER-UPR. More importantly, we show the crtiical role of Sse1 in regulating the ER-stress-induced cell division arrest and cell death during global ER stress by tunicamycin.
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