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Literature DB >> 29907569

Arginine methylation of SMAD7 by PRMT1 in TGF-β-induced epithelial-mesenchymal transition and epithelial stem-cell generation.

Yoko Katsuno^1,2, Jian Qin^3,4, Juan Oses-Prieto⁵, Hongjun Wang¹, Olan Jackson-Weaver³, Tingwei Zhang³, Samy Lamouille¹, Jian Wu³, Alma Burlingame⁵, Jian Xu^6,3,7, Rik Derynck^8,9,10.

Abstract

The epithelial-to-mesenchymal transdifferentiation (EMT) is crucial for tissue differentiation in development and drives essential steps in cancer and fibrosis. EMT is accompanied by reprogramming of gene expression and has been associated with the epithelial stem-cell state in normal and carcinoma cells. The cytokine transforming growth factor β (TGF-β) drives this program in cooperation with other signaling pathways and through TGF-β-activated SMAD3 as the major effector. TGF-β-induced SMAD3 activation is inhibited by SMAD7 and to a lesser extent by SMAD6, and SMAD6 and SMAD7 both inhibit SMAD1 and SMAD5 activation in response to the TGF-β-related bone morphogenetic proteins (BMPs). We previously reported that, in response to BMP, protein arginine methyltransferase 1 (PRMT1) methylates SMAD6 at the BMP receptor complex, thereby promoting its dissociation from the receptors and enabling BMP-induced SMAD1 and SMAD5 activation. We now provide evidence that PRMT1 also facilitates TGF-β signaling by methylating SMAD7, which complements SMAD6 methylation. We found that PRMT1 is required for TGF-β-induced SMAD3 activation, through a mechanism similar to that of BMP-induced SMAD6 methylation, and thus promotes the TGF-β-induced EMT and epithelial stem-cell generation. This critical mechanism positions PRMT1 as an essential mediator of TGF-β signaling that controls the EMT and epithelial cell stemness through SMAD7 methylation.

Entities: Chemical Disease Gene

Keywords: SMAD transcription factor; arginine methyltransferase; cancer stem cells; cell surface receptor; epithelial cell; epithelial stem cell; epithelial-mesenchymal transition; post-translational modification (PTM); stemness

Mesh：

Substances：

Year: 2018 PMID： 29907569 PMCID： PMC6109915 DOI： 10.1074/jbc.RA118.002027

Source DB: PubMed Journal: J Biol Chem ISSN： 0021-9258 Impact factor: 5.157

43 in total

Review 1. Arginine Methylation: The Coming of Age.

Authors: Roméo S Blanc; Stéphane Richard
Journal: Mol Cell Date: 2017-01-05 Impact factor: 17.970

2. Smad6 Methylation Represses NFκB Activation and Periodontal Inflammation.

Authors: T Zhang; J Wu; N Ungvijanpunya; O Jackson-Weaver; Y Gou; J Feng; T V Ho; Y Shen; J Liu; S Richard; J Jin; G Hajishengallis; Y Chai; J Xu
Journal: J Dent Res Date: 2018-02-08 Impact factor: 6.116

Review 3. Specificity and versatility in tgf-beta signaling through Smads.

Authors: Xin-Hua Feng; Rik Derynck
Journal: Annu Rev Cell Dev Biol Date: 2005 Impact factor: 13.827

4. PRMT1 expression is elevated in head and neck cancer and inhibition of protein arginine methylation by adenosine dialdehyde or PRMT1 knockdown downregulates proliferation and migration of oral cancer cells.

Authors: Chun-Yi Chuang; Chien-Ping Chang; Yu-Jen Lee; Wei-Long Lin; Wen-Wei Chang; Jia-Sian Wu; Ya-Wen Cheng; Huei Lee; Chuan Li
Journal: Oncol Rep Date: 2017-06-21 Impact factor: 3.906

Review 5. EMT, CSCs, and drug resistance: the mechanistic link and clinical implications.

Authors: Tsukasa Shibue; Robert A Weinberg
Journal: Nat Rev Clin Oncol Date: 2017-04-11 Impact factor: 66.675

Review 6. Transitions between epithelial and mesenchymal states: acquisition of malignant and stem cell traits.

Authors: Kornelia Polyak; Robert A Weinberg
Journal: Nat Rev Cancer Date: 2009-03-05 Impact factor: 60.716

Review 7. TGF-beta-induced epithelial to mesenchymal transition.

Authors: Jian Xu; Samy Lamouille; Rik Derynck
Journal: Cell Res Date: 2009-02 Impact factor: 25.617

Review 8. Protein arginine methylation in mammals: who, what, and why.

Authors: Mark T Bedford; Steven G Clarke
Journal: Mol Cell Date: 2009-01-16 Impact factor: 17.970

9. GS domain mutations that constitutively activate T beta R-I, the downstream signaling component in the TGF-beta receptor complex.

Authors: R Wieser; J L Wrana; J Massagué
Journal: EMBO J Date: 1995-05-15 Impact factor: 11.598

10. The dual function of PRMT1 in modulating epithelial-mesenchymal transition and cellular senescence in breast cancer cells through regulation of ZEB1.

Authors: Yanyan Gao; Yaping Zhao; Juechao Zhang; Yang Lu; Xin Liu; Pengyu Geng; Baiqu Huang; Yu Zhang; Jun Lu
Journal: Sci Rep Date: 2016-01-27 Impact factor: 4.379

26 in total

1. PRMT1-p53 Pathway Controls Epicardial EMT and Invasion.

Authors: Olan Jackson-Weaver; Nicha Ungvijanpunya; Yuan Yuan; Jiang Qian; Yongchao Gou; Jian Wu; Hua Shen; Yibu Chen; Meng Li; Stéphane Richard; Yang Chai; Henry M Sucov; Jian Xu
Journal: Cell Rep Date: 2020-06-09 Impact factor: 9.423

Review 2. Specificity, versatility, and control of TGF-β family signaling.

Authors: Rik Derynck; Erine H Budi
Journal: Sci Signal Date: 2019-02-26 Impact factor: 8.192

3. PRMT1-Dependent Macrophage IL-6 Production Is Required for Alcohol-Induced HCC Progression.

Authors: Jie Zhao; Maura O'Neil; Anusha Vittal; Steven A Weinman; Irina Tikhanovich
Journal: Gene Expr Date: 2018-09-18

4. Protein arginine methyltransferase 1 mediates renal fibroblast activation and fibrogenesis through activation of Smad3 signaling.

Authors: Yu Zhu; Chao Yu; Shougang Zhuang
Journal: Am J Physiol Renal Physiol Date: 2019-12-09