Journal Article10.1126/SCIENCE.AAX3769
Cellular quality control by the ubiquitin-proteasome system and autophagy
891
TL;DR: The UPS and autophagy form an interconnected quality control network where decision-making is self-organized on the basis of biophysical parameters (binding affinities, local concentrations, and avidity) and compartmentalization (through membranes, liquid-liquid phase separation, or the formation of aggregates).
read more
Abstract: To achieve homeostasis, cells evolved dynamic and self-regulating quality control processes to adapt to new environmental conditions and to prevent prolonged damage. We discuss the importance of two major quality control systems responsible for degradation of proteins and organelles in eukaryotic cells: the ubiquitin-proteasome system (UPS) and autophagy. The UPS and autophagy form an interconnected quality control network where decision-making is self-organized on the basis of biophysical parameters (binding affinities, local concentrations, and avidity) and compartmentalization (through membranes, liquid-liquid phase separation, or the formation of aggregates). We highlight cellular quality control factors that delineate their differential deployment toward macromolecular complexes, liquid-liquid phase-separated subcellular structures, or membrane-bound organelles. Finally, we emphasize the need for continuous promotion of quantitative and mechanistic research into the roles of the UPS and autophagy in human pathophysiology.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Label-free quantitative proteomics and stress responses in pigs—The case of short or long road transportation
TL;DR: In this paper , the authors applied proteomics methods to the animal stress/welfare problem in pigs muscle-exudate with the aim to identify proteins indicative of molecular processes underpinning transport stress and to better characterise this species as a biomedical model.
4
mTOR inhibition via Rapamycin treatment partially reverts the deficit in energy metabolism caused by FH loss in RPE cells
David A. Merle,David A. Merle,Francesca Provenzano,Mohamed Ali Jarboui,Ellen Kilger,Simon J. Clark,Simon J. Clark,Michela Deleidi,Angela Armento,Marius Ueffing,Marius Ueffing +10 more
TL;DR: In this article, the authors investigated the mechanism by which intracellular FH regulates RPE cell homeostasis and found that silencing of CFH results in hyperactivation of mTOR signaling along with decreased mitochondrial respiration and that mTOR inhibition via rapamycin can partially rescue these metabolic defects.
4
The E3 Ubiquitin Ligase SCF Cyclin F Promotes Sequestosome-1/p62 Insolubility and Foci Formation and is Dysregulated in ALS and FTD Pathogenesis.
Jennilee Davidson,Sharlynn Wu,Stephanie L. Rayner,Flora Cheng,Carlo Russo,Michelle Newbery,Kunjie Ding,Natalie M. Scherer,Rachelle Balez,Alberto García-Redondo,Alberto Rábano,Lezanne Ooi,Kelly L. Williams,Marco Morsch,Ian A. Blair,Antonio Di Ieva,Shu Yang,Roger S. Chung,Albert Lee +18 more
TL;DR: In this article , a function of cyclin F to regulate substrate solubility was identified and shown to mechanistically underlie ALS and frontotemporal dementia (FTD) disease pathogenesis.
The G protein-coupled metabotropic glutamate receptor 1 controls neuronal macroautophagy
Maribel Donoso,Luisa Speranza,Magdalena Kalinowska,Catherine Castillo,Claudia de Sanctis,Anna Francesconi +5 more
TL;DR: The G protein-coupled metabotropic glutamate receptor 1 (mGlu1) contributes to control basal autophagy in the brain and the evolutionarily conserved adaptor protein FEZ1 appears to enable association of mGlu2 with Ulk1, a core component of theAutophagy pathway.
4
A secreted fungal laccase targets the receptor kinase OsSRF3 to inhibit OsBAK1–OsSRF3-mediated immunity in rice
Yuhang Duan,Zhaoyun Wang,Yuan Fang,Zhangxin Pei,Hong Hu,Qiutao Xu,Hao Liu,Xiaolin Chen,Chaoxi Luo,Junbin Huang,Lu Zheng,Xiaoyang Chen +11 more
TL;DR: Researchers identify UgsL, a fungal effector, that inhibits rice immunity by targeting OsSRF3, a receptor kinase, and interfering with its phosphorylation and degradation, thereby suppressing OsBAK1-OsSRF3-mediated immune pathways in rice.
4
References
The ubiquitin kinase PINK1 recruits autophagy receptors to induce mitophagy
Michael Lazarou,Danielle A. Sliter,Lesley A. Kane,Shireen A. Sarraf,Chunxin Wang,Jonathon L. Burman,Dionisia P. Sideris,Adam I. Fogel,Richard J. Youle +8 more
TL;DR: Using genome editing to knockout five autophagy receptors in HeLa cells, this work shows that two receptors previously linked to xenophagy, NDP52 and optineurin, are the primary receptors for PINK1- and parkin-mediated mitophagy.
Protein Phase Separation: A New Phase in Cell Biology.
Steven Boeynaems,Steven Boeynaems,Simon Alberti,Nicolas L. Fawzi,Tanja Mittag,Magdalini Polymenidou,Frederic Rousseau,Frederic Rousseau,Joost Schymkowitz,Joost Schymkowitz,James Shorter,Benjamin Wolozin,Ludo Van Den Bosch,Peter Tompa,Peter Tompa,Monika Fuxreiter +15 more
TL;DR: A combination of techniques from cell biology, biophysics, physical chemistry, structural biology, and bioinformatics are starting to help establish the molecular principles of an emerging field, thus paving the way for exciting discoveries, including novel therapeutic approaches for the treatment of age-related disorders.
1.8K
Nix is a selective autophagy receptor for mitochondrial clearance
Ivana Novak,Vladimir Kirkin,David G. McEwan,Ji Zhang,Philipp Wild,Alexis Rozenknop,Vladimir V. Rogov,Frank Löhr,Doris Popovic,Angelo Occhipinti,Andreas S. Reichert,Janoš Terzić,Volker Dötsch,Paul A. Ney,Ivan Dikic,Ivan Dikic +15 more
TL;DR: Nix functions as an autophagy receptor, which mediates mitochondrial clearance after mitochondrial damage and during erythrocyte differentiation, and ablation of the Nix:LC3/GABARAP interaction retards mitochondrial clearance in maturing murine reticulocytes.
Ubiquitination in disease pathogenesis and treatment
TL;DR: The role of ubiquitination in the onset and progression of cancer, metabolic syndromes, neurodegenerative diseases, autoimmunity, inflammatory disorders, infection and muscle dystrophies is described and how current knowledge could be exploited for the development of new clinical therapies is indicated.
1.1K
Proteasomal and Autophagic Degradation Systems.
TL;DR: This review summarizes molecular details of how proteasome and autophagy pathways are functionally interconnected in cells and indicates common principles and nodes of communication that can be therapeutically exploited.
983
Related Papers (5)
Beth Levine,Guido Kroemer +1 more
Noboru Mizushima,Masaaki Komatsu +1 more
[...]
David Komander,Michael Rape +1 more