Cooperative regulation of NF-E2 related factor 1 protein stability and transcriptional activation by endoplasmic reticulum-associated degradation system mediator, Selenoprotein S/K.
Yamada, G.; Tanaka, N.; Kamada, Y.; Yoshimoto, R. U.; Kita, M.; Takami, H.; Suetsugu, Y.; Sawada, T.; Kido, M. A.; Okiyoneda, T.; Tsujita, T.
Show abstract
NRF1 is a key mediator of the proteasome recovery pathway, yet its regulation by ER-resident factors is not fully elucidated. Here, we demonstrate that selenoproteins SELS and SELK are critical regulators for NRF1 protein dynamics. SELS stabilizes NRF1, while SELK induces its insolubilization. Their deficiency leads to a hyper-accumulation and increased nuclear localization of NRF1 under proteasome inhibition condition. This results in an augmented transcriptional response of proteasome subunits. These results indicate that SELS and SELK cooperatively gate NRF1 activity by controlling its retrotranslocation and solubility, highlighting a novel layer of selenoprotein-mediated quality control in the proteostasis network.
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