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Bongkeun Kim1, Yongook Lee1, Hyojeong Choi1 & Won-Ki Huh1,2,*
1School of Biological Sciences, Seoul National University, Seoul, Republic of Korea.
2Institute of Microbiology, Seoul National University, Seoul, Republic of Korea.
*Corresponding author
Abstract
Macroautophagy/autophagy is an important catabolic process for maintaining cellular homeostasis by adapting to various stress conditions. Autophagy is mediated by a double-membrane autophagosome, which sequesters a portion of cytoplasmic components for delivery to the vacuole. Several autophagy-related (ATG) genes play crucial roles in autophagosome formation. The induction of ATG genes must be tightly regulated to maintain a proper autophagic activity, but their regulatory mechanisms are still largely unknown. Here, we report that the trehalose-6-phosphate phosphatase Tps2 functions as a positive regulator of autophagy in Saccharomyces cerevisiae. Cellular trehalose levels do not affect autophagy regulation by Tps2. Loss of Tps2 leads to impaired autophagic flux and reduced ATG8 expression under nitrogen starvation. In tps2Δ cells, Ume6 is predominantly dephosphorylated and represses ATG8 transcription by binding to its promoter region. Tps2 regulates nuclear translocation and activation of Rim15 kinase, a negative regulator of Ume6, by causing the dissociation of Rim15 from the 14-3-3 proteins Bmh1/2 under nitrogen starvation, suggesting that Rim15 mediates the function of Tps2 as a positive regulator of ATG8 induction. Furthermore, Tps2 plays a crucial role in the dephosphorylation of Ser1061 and Thr1075 residues of Rim15, which is important for controlling the dissociation of Rim15 from Bmh1/2 under nitrogen starvation. Together, our results reveal the role of Tps2 as a positive regulator of autophagy and provide new insight into the regulatory mechanisms of ATG gene expression.
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