Literature DB >> 21575136

A mammalian monothiol glutaredoxin, Grx3, is critical for cell cycle progression during embryogenesis.

Lawrence Chan1, Kendal D Hirschi2,3, Ning-Hui Cheng2,3, Wei Zhang4, Wei-Qin Chen1, Jianping Jin5, Xiaojiang Cui6, Nancy F Butte2,3.   

Abstract

Glutaredoxins (Grxs) have been shown to be critical in maintaining redox homeostasis in living cells. Recently, an emerging subgroup of Grxs with one cysteine residue in the putative active motif (monothiol Grxs) has been identified. However, the biological and physiological functions of this group of proteins have not been well characterized. Here, we characterize a mammalian monothiol Grx (Grx3, also termed TXNL2/PICOT) with high similarity to yeast ScGrx3/ScGrx4. In yeast expression assays, mammalian Grx3s were localized to the nuclei and able to rescue growth defects of grx3grx4 cells. Furthermore, Grx3 inhibited iron accumulation in yeast grx3gxr4 cells and suppressed the sensitivity of mutant cells to exogenous oxidants. In mice, Grx3 mRNA was ubiquitously expressed in developing embryos, adult tissues and organs, and was induced during oxidative stress. Mouse embryos absent of Grx3 grew smaller with morphological defects and eventually died at 12.5 days of gestation. Analysis in mouse embryonic fibroblasts revealed that Grx3(-/-) cells had impaired growth and cell cycle progression at the G(2) /M phase, whereas the DNA replication during the S phase was not affected by Grx3 deletion. Furthermore, Grx3-knockdown HeLa cells displayed a significant delay in mitotic exit and had a higher percentage of binucleated cells. Therefore, our findings suggest that the mammalian Grx3 has conserved functions in protecting cells against oxidative stress and deletion of Grx3 in mice causes early embryonic lethality which could be due to defective cell cycle progression during late mitosis.
© 2011 The Authors Journal compilation © 2011 FEBS.

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Year:  2011        PMID: 21575136      PMCID: PMC4038268          DOI: 10.1111/j.1742-4658.2011.08178.x

Source DB:  PubMed          Journal:  FEBS J        ISSN: 1742-464X            Impact factor:   5.542


  64 in total

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Authors:  Rebecca A Wingert; Jenna L Galloway; Bruce Barut; Helen Foott; Paula Fraenkel; Jennifer L Axe; Gerhard J Weber; Kimberly Dooley; Alan J Davidson; Bettina Schmid; Bettina Schmidt; Barry H Paw; George C Shaw; Paul Kingsley; James Palis; Heidi Schubert; Opal Chen; Jerry Kaplan; Leonard I Zon
Journal:  Nature       Date:  2005-08-18       Impact factor: 49.962

Review 2.  Role of insulin-induced reactive oxygen species in the insulin signaling pathway.

Authors:  Barry J Goldstein; Kalyankar Mahadev; Xiangdong Wu; Li Zhu; Hiroyuki Motoshima
Journal:  Antioxid Redox Signal       Date:  2005 Jul-Aug       Impact factor: 8.401

3.  Direct control of cell cycle gene expression by proto-oncogene product ACTR, and its autoregulation underlies its transforming activity.

Authors:  Maggie C Louie; Alexey S Revenko; June X Zou; Jennifer Yao; Hong-Wu Chen
Journal:  Mol Cell Biol       Date:  2006-05       Impact factor: 4.272

4.  Role of glutaredoxin-3 and glutaredoxin-4 in the iron regulation of the Aft1 transcriptional activator in Saccharomyces cerevisiae.

Authors:  Luis Ojeda; Greg Keller; Ulrich Muhlenhoff; Julian C Rutherford; Roland Lill; Dennis R Winge
Journal:  J Biol Chem       Date:  2006-04-28       Impact factor: 5.157

5.  Thioredoxin-like 2 regulates human cancer cell growth and metastasis via redox homeostasis and NF-κB signaling.

Authors:  Ying Qu; Jinhua Wang; Partha S Ray; Hua Guo; Jian Huang; Miyung Shin-Sim; Bolanle A Bukoye; Bingya Liu; Adrian V Lee; Xin Lin; Peng Huang; John W Martens; Armando E Giuliano; Ning Zhang; Ning-Hui Cheng; Xiaojiang Cui
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6.  Comparative effects of IL-1beta and hydrogen peroxide (H2O2) on catabolic and anabolic gene expression in juvenile bovine chondrocytes.

Authors:  G Martin; R Andriamanalijaona; M Mathy-Hartert; Y Henrotin; J-P Pujol
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7.  Prokaryotic and eukaryotic monothiol glutaredoxins are able to perform the functions of Grx5 in the biogenesis of Fe/S clusters in yeast mitochondria.

Authors:  Maria Micaela Molina-Navarro; Celia Casas; Lidia Piedrafita; Gemma Bellí; Enrique Herrero
Journal:  FEBS Lett       Date:  2006-03-20       Impact factor: 4.124

8.  Cytosolic monothiol glutaredoxins function in intracellular iron sensing and trafficking via their bound iron-sulfur cluster.

Authors:  Ulrich Mühlenhoff; Sabine Molik; José R Godoy; Marta A Uzarska; Nadine Richter; Andreas Seubert; Yan Zhang; JoAnne Stubbe; Fabien Pierrel; Enrique Herrero; Christopher Horst Lillig; Roland Lill
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Authors:  Prem Ramakrishnan; Benjamin A Hecht; Douglas R Pedersen; Matthew R Lavery; Jerry Maynard; Joseph A Buckwalter; James A Martin
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  28 in total

1.  Human glutaredoxin 3 forms [2Fe-2S]-bridged complexes with human BolA2.

Authors:  Haoran Li; Daphne T Mapolelo; Sajini Randeniya; Michael K Johnson; Caryn E Outten
Journal:  Biochemistry       Date:  2012-02-10       Impact factor: 3.162

2.  Nuclear glutaredoxin 3 is critical for protection against oxidative stress-induced cell death.

Authors:  Khanh Pham; Rituraj Pal; Ying Qu; Xi Liu; Han Yu; Stephen L Shiao; Xinquan Wang; E O'Brian Smith; Xiaojiang Cui; George G Rodney; Ninghui Cheng
Journal:  Free Radic Biol Med       Date:  2015-05-11       Impact factor: 7.376

3.  Loss of glutaredoxin 3 impedes mammary lobuloalveolar development during pregnancy and lactation.

Authors:  Khanh Pham; Jie Dong; Xiqian Jiang; Ying Qu; Han Yu; Yisheng Yang; Walter Olea; Juan C Marini; Lawrence Chan; Jin Wang; Xander H T Wehrens; Xiaojiang Cui; Yi Li; Darryl L Hadsell; Ninghui Cheng
Journal:  Am J Physiol Endocrinol Metab       Date:  2016-11-15       Impact factor: 4.310

4.  Cytosolic iron-sulfur cluster transfer-a proposed kinetic pathway for reconstitution of glutaredoxin 3.

Authors:  Christine Wachnowsky; Insiya Fidai; James A Cowan
Journal:  FEBS Lett       Date:  2016-12-01       Impact factor: 4.124

5.  Mapping cellular Fe-S cluster uptake and exchange reactions - divergent pathways for iron-sulfur cluster delivery to human ferredoxins.

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Journal:  Metallomics       Date:  2016-12-07       Impact factor: 4.526

6.  Vertebrate-specific glutaredoxin is essential for brain development.

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Review 7.  Redox Regulation via Glutaredoxin-1 and Protein S-Glutathionylation.

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Journal:  Antioxid Redox Signal       Date:  2020-01-23       Impact factor: 8.401

8.  Regulation of human Nfu activity in Fe-S cluster delivery-characterization of the interaction between Nfu and the HSPA9/Hsc20 chaperone complex.

Authors:  Christine Wachnowsky; Yushi Liu; Taejin Yoon; J A Cowan
Journal:  FEBS J       Date:  2017-12-29       Impact factor: 5.542

9.  The diferric-tyrosyl radical cluster of ribonucleotide reductase and cytosolic iron-sulfur clusters have distinct and similar biogenesis requirements.

Authors:  Haoran Li; Martin Stümpfig; Caiguo Zhang; Xiuxiang An; JoAnne Stubbe; Roland Lill; Mingxia Huang
Journal:  J Biol Chem       Date:  2017-05-17       Impact factor: 5.157

Review 10.  Thioredoxins, glutaredoxins, and peroxiredoxins--molecular mechanisms and health significance: from cofactors to antioxidants to redox signaling.

Authors:  Eva-Maria Hanschmann; José Rodrigo Godoy; Carsten Berndt; Christoph Hudemann; Christopher Horst Lillig
Journal:  Antioxid Redox Signal       Date:  2013-03-28       Impact factor: 8.401
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