Stress granule formation is regulated by signaling machinery involving Sch9/Ypk1, sphingolipids, and Ubi4.

IF 12.4 1区医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL Theranostics Pub Date : 2025-01-06 eCollection Date: 2025-01-01 DOI:10.7150/thno.98199

Lihua Chen, Yuan Gao, Xinxin Hao, Xiaoxue Yang, Michelle Lindström, Shan Jiang, Xiuling Cao, Huisheng Liu, Thomas Nyström, Per Sunnerhagen, Beidong Liu

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引用次数: 0

Abstract

Rationale: Stress granules (SGs) are membraneless organelles that are formed in response to various stresses. Multiple cellular processes have been reported to be involved in SG formation. However, the signaling cascades that coordinate SG formation remain to be elucidated. Methods: By performing two high-content imaging-based phenomic screens, we identified multiple signaling components that form a possible signal transduction pathway that regulates SG formation. Results: We found that Sch9 and Ypk1 function in an early step of SG formation, leading to a decrease in intermediate long-chain base sphingolipids (LCBs). This further downregulates the polyubiquitin precursor protein Ubi4 through upregulating the deubiquitinase Ubp3. Decreased levels of cellular free ubiquitin may subsequently facilitate Lsm7 phase separation and thus trigger SG formation. Conclusion: The signaling pathway identified in this work, together with its conserved components, provides valuable clues for understanding the mechanisms underlying SG formation and SG-associated human diseases.

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IF 11.2 1区工程技术Applied EnergyPub Date : 2020-04-01 DOI: 10.1016/j.apenergy.2020.114681

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来源期刊

Theranostics MEDICINE, RESEARCH & EXPERIMENTAL-

CiteScore

25.40

自引率

1.60%

发文量

433

审稿时长

1 months

期刊介绍： Theranostics serves as a pivotal platform for the exchange of clinical and scientific insights within the diagnostic and therapeutic molecular and nanomedicine community, along with allied professions engaged in integrating molecular imaging and therapy. As a multidisciplinary journal, Theranostics showcases innovative research articles spanning fields such as in vitro diagnostics and prognostics, in vivo molecular imaging, molecular therapeutics, image-guided therapy, biosensor technology, nanobiosensors, bioelectronics, system biology, translational medicine, point-of-care applications, and personalized medicine. Encouraging a broad spectrum of biomedical research with potential theranostic applications, the journal rigorously peer-reviews primary research, alongside publishing reviews, news, and commentary that aim to bridge the gap between the laboratory, clinic, and biotechnology industries.