Literature DB >> 30078730

A Regulatory Response to Ribosomal Protein Mutations Controls Translation, Growth, and Cell Competition.

Chang-Hyun Lee1, Marianthi Kiparaki1, Jorge Blanco1, Virginia Folgado1, Zhejun Ji1, Amit Kumar1, Gerard Rimesso1, Nicholas E Baker2.   

Abstract

Ribosomes perform protein synthesis but are also involved in signaling processes, the full extent of which are still being uncovered. We report that phenotypes of mutating ribosomal proteins (Rps) are largely due to signaling. Using Drosophila, we discovered that a bZip-domain protein, Xrp1, becomes elevated in Rp mutant cells. Xrp1 reduces translation and growth, delays development, is responsible for gene expression changes, and causes the cell competition of Rp heterozygous cells from genetic mosaics. Without Xrp1, even cells homozygously deleted for Rp genes persist and grow. Xrp1 induction in Rp mutant cells depends on a particular Rp with regulatory effects, RpS12, and precedes overall changes in translation. Thus, effects of Rp mutations, even the reductions in translation and growth, depend on signaling through the Xrp1 pathway and are not simply consequences of reduced ribosome production limiting protein synthesis. One benefit of this system may be to eliminate Rp-mutant cells by cell competition.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Drosophila development; Xrp1; cell competition; growth regulation; minute mutation; regulation of translation; ribosomal protein; ribosomopathy

Mesh:

Substances:

Year:  2018        PMID: 30078730      PMCID: PMC6261318          DOI: 10.1016/j.devcel.2018.07.003

Source DB:  PubMed          Journal:  Dev Cell        ISSN: 1534-5807            Impact factor:   12.270


  75 in total

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  28 in total

1.  A potential link between p53, cell competition and ribosomopathy in mammals and in Drosophila.

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Journal:  Dev Biol       Date:  2018-12-02       Impact factor: 3.582

2.  Repressive Gene Regulation Synchronizes Development with Cellular Metabolism.

Authors:  Justin J Cassidy; Sebastian M Bernasek; Rachael Bakker; Ritika Giri; Nicolás Peláez; Bryan Eder; Anna Bobrowska; Neda Bagheri; Luis A Nunes Amaral; Richard W Carthew
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3.  Genome-Wide Identification and Stage-Specific Expression Profile Analysis Reveal the Function of Ribosomal Proteins for Oogenesis of Spodoptera litura.

Authors:  Ranran Sun; Jin Liu; Yuanhao Xu; Liwei Jiang; Yun Li; Guohua Zhong; Xin Yi
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4.  The transcription factor Xrp1 orchestrates both reduced translation and cell competition upon defective ribosome assembly or function.

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Review 5.  The homeostatic regulation of ribosome biogenesis.

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Review 6.  Emerging mechanisms of cell competition.

Authors:  Nicholas E Baker
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Review 7.  Picking Winners and Losers: Cell Competition in Tissue Development and Homeostasis.

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8.  A p53-dependent translational program directs tissue-selective phenotypes in a model of ribosomopathies.

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Review 9.  Transcriptional versus metabolic control of cell fitness during cell competition.

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