Literature DB >> 33649309

Cells recognize osmotic stress through liquid-liquid phase separation lubricated with poly(ADP-ribose).

Kengo Watanabe1, Kazuhiro Morishita2, Xiangyu Zhou2, Shigeru Shiizaki2, Yasuo Uchiyama3, Masato Koike4, Isao Naguro2, Hidenori Ichijo5.   

Abstract

Cells are under threat of osmotic perturbation; cell volume maintenance is critical in cerebral edema, inflammation and aging, in which prominent changes in intracellular or extracellular osmolality emerge. After osmotic stress-enforced cell swelling or shrinkage, the cells regulate intracellular osmolality to recover their volume. However, the mechanisms recognizing osmotic stress remain obscured. We previously clarified that apoptosis signal-regulating kinase 3 (ASK3) bidirectionally responds to osmotic stress and regulates cell volume recovery. Here, we show that macromolecular crowding induces liquid-demixing condensates of ASK3 under hyperosmotic stress, which transduce osmosensing signal into ASK3 inactivation. A genome-wide small interfering RNA (siRNA) screen identifies an ASK3 inactivation regulator, nicotinamide phosphoribosyltransferase (NAMPT), related to poly(ADP-ribose) signaling. Furthermore, we clarify that poly(ADP-ribose) keeps ASK3 condensates in the liquid phase and enables ASK3 to become inactivated under hyperosmotic stress. Our findings demonstrate that cells rationally incorporate physicochemical phase separation into their osmosensing systems.

Entities:  

Year:  2021        PMID: 33649309     DOI: 10.1038/s41467-021-21614-5

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  69 in total

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8.  Cutaneous Na+ storage strengthens the antimicrobial barrier function of the skin and boosts macrophage-driven host defense.

Authors:  Jonathan Jantsch; Valentin Schatz; Diana Friedrich; Agnes Schröder; Christoph Kopp; Isabel Siegert; Andreas Maronna; David Wendelborn; Peter Linz; Katrina J Binger; Matthias Gebhardt; Matthias Heinig; Patrick Neubert; Fabian Fischer; Stefan Teufel; Jean-Pierre David; Clemens Neufert; Alexander Cavallaro; Natalia Rakova; Christoph Küper; Franz-Xaver Beck; Wolfgang Neuhofer; Dominik N Muller; Gerold Schuler; Michael Uder; Christian Bogdan; Friedrich C Luft; Jens Titze
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  6 in total

1.  Stress routes clients to the proteasome via a BAG2 ubiquitin-independent degradation condensate.

Authors:  Daniel C Carrettiero; Maria C Almeida; Andrew P Longhini; Jennifer N Rauch; Dasol Han; Xuemei Zhang; Saeed Najafi; Jason E Gestwicki; Kenneth S Kosik
Journal:  Nat Commun       Date:  2022-06-02       Impact factor: 17.694

Review 2.  From Pinocytosis to Methuosis-Fluid Consumption as a Risk Factor for Cell Death.

Authors:  Markus Ritter; Nikolaus Bresgen; Hubert H Kerschbaum
Journal:  Front Cell Dev Biol       Date:  2021-06-23

3.  The role of stress-activated RNA-protein granules in surviving adversity.

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Journal:  RNA       Date:  2021-04-30       Impact factor: 4.942

Review 4.  The expanding universe of PARP1-mediated molecular and therapeutic mechanisms.

Authors:  Dan Huang; W Lee Kraus
Journal:  Mol Cell       Date:  2022-03-09       Impact factor: 19.328

Review 5.  Post-translational modifications in liquid-liquid phase separation: a comprehensive review.

Authors:  Jingxian Li; Mengdi Zhang; Weirui Ma; Bing Yang; Huasong Lu; Fangfang Zhou; Long Zhang
Journal:  Mol Biomed       Date:  2022-05-11

6.  Stress-induced perturbations in intracellular amino acids reprogram mRNA translation in osmoadaptation independently of the ISR.

Authors:  Dawid Krokowski; Raul Jobava; Krzysztof J Szkop; Chien-Wen Chen; Xu Fu; Sarah Venus; Bo-Jhih Guan; Jing Wu; Zhaofeng Gao; Wioleta Banaszuk; Marek Tchorzewski; Tingwei Mu; Phil Ropelewski; William C Merrick; Yuanhui Mao; Aksoylu Inci Sevval; Helen Miranda; Shu-Bing Qian; Maria Manifava; Nicholas T Ktistakis; Anastasios Vourekas; Eckhard Jankowsky; Ivan Topisirovic; Ola Larsson; Maria Hatzoglou
Journal:  Cell Rep       Date:  2022-07-19       Impact factor: 9.995
  6 in total

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