Literature DB >> 31433161

SIRT2 and Lysine Fatty Acylation Regulate the Activity of RalB and Cell Migration.

Nicole A Spiegelman1, Xiaoyu Zhang1, Hui Jing1, Ji Cao1, Ilana B Kotliar1,2, Pornpun Aramsangtienchai1, Miao Wang1, Zhen Tong1, Kelly M Rosch1, Hening Lin1,3.   

Abstract

Protein lysine fatty acylation is increasingly recognized as a prevalent and important protein post-translation modification. Recently, it has been shown that K-Ras4a, R-Ras2, and Rac1 are regulated by lysine fatty acylation. Here, we investigated whether other members of the Ras superfamily could also be regulated by lysine fatty acylation. Several small GTPases exhibit hydroxylamine resistant fatty acylation, suggesting they may also have protein lysine fatty acylation. We further characterized one of these GTPases, RalB. We show that RalB has C-terminal lysine fatty acylation, with the predominant modification site being Lys200. The lysine acylation of RalB is regulated by SIRT2, a member of the sirtuin family of nicotinamide adenine dinucleotide (NAD)-dependent protein lysine deacylases. Lysine fatty acylated RalB exhibited enhanced plasma membrane localization and recruited its known effectors Sec5 and Exo84, members of the exocyst complex, to the plasma membrane. RalB lysine fatty acylation did not affect the proliferation or anchorage-independent growth but did affect the trans-well migration of A549 lung cancer cells. This study thus identified an additional function for protein lysine fatty acylation and the deacylase SIRT2.

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Year:  2019        PMID: 31433161      PMCID: PMC6893912          DOI: 10.1021/acschembio.9b00492

Source DB:  PubMed          Journal:  ACS Chem Biol        ISSN: 1554-8929            Impact factor:   5.100


  74 in total

Review 1.  Ras oncogenes and their downstream targets.

Authors:  Krishnaraj Rajalingam; Ralf Schreck; Ulf R Rapp; Stefan Albert
Journal:  Biochim Biophys Acta       Date:  2007-01-28

Review 2.  Physiological roles of Rho and Rho effectors in mammals.

Authors:  Dean Thumkeo; Sadanori Watanabe; Shuh Narumiya
Journal:  Eur J Cell Biol       Date:  2013-10-08       Impact factor: 4.492

Review 3.  A Decade of Click Chemistry in Protein Palmitoylation: Impact on Discovery and New Biology.

Authors:  Xinxin Gao; Rami N Hannoush
Journal:  Cell Chem Biol       Date:  2017-12-28       Impact factor: 8.116

4.  Activation and involvement of Ral GTPases in colorectal cancer.

Authors:  Timothy D Martin; Jonathan C Samuel; Elizabeth D Routh; Channing J Der; Jen Jen Yeh
Journal:  Cancer Res       Date:  2011-01-01       Impact factor: 12.701

5.  SIRT2 regulates NF-κB dependent gene expression through deacetylation of p65 Lys310.

Authors:  Karin M Rothgiesser; Süheda Erener; Susanne Waibel; Bernhard Lüscher; Michael O Hottiger
Journal:  J Cell Sci       Date:  2010-11-16       Impact factor: 5.285

Review 6.  Ral GTPases: crucial mediators of exocytosis and tumourigenesis.

Authors:  Ryutaro Shirakawa; Hisanori Horiuchi
Journal:  J Biochem       Date:  2015-03-20       Impact factor: 3.387

7.  SIRT7 Is an RNA-Activated Protein Lysine Deacylase.

Authors:  Zhen Tong; Miao Wang; Yi Wang; David D Kim; Jennifer K Grenier; Ji Cao; Sushabhan Sadhukhan; Quan Hao; Hening Lin
Journal:  ACS Chem Biol       Date:  2016-12-20       Impact factor: 5.100

8.  HDAC8 Catalyzes the Hydrolysis of Long Chain Fatty Acyl Lysine.

Authors:  Pornpun Aramsangtienchai; Nicole A Spiegelman; Bin He; Seth P Miller; Lunzhi Dai; Yingming Zhao; Hening Lin
Journal:  ACS Chem Biol       Date:  2016-08-05       Impact factor: 5.100

9.  SIRT2 regulates adipocyte differentiation through FoxO1 acetylation/deacetylation.

Authors:  Enxuan Jing; Stephane Gesta; C Ronald Kahn
Journal:  Cell Metab       Date:  2007-08       Impact factor: 27.287

10.  Novel small molecule SIRT2 inhibitors induce cell death in leukemic cell lines.

Authors:  Tomohiro Kozako; Paolo Mellini; Takeo Ohsugi; Akiyoshi Aikawa; Yu-Ichiro Uchida; Shin-Ichiro Honda; Takayoshi Suzuki
Journal:  BMC Cancer       Date:  2018-08-06       Impact factor: 4.430
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  7 in total

Review 1.  The RAL Enigma: Distinct Roles of RALA and RALB in Cancer.

Authors:  Dillon S Richardson; Jonathan M Spehar; David T Han; Prathik A Chakravarthy; Steven T Sizemore
Journal:  Cells       Date:  2022-05-14       Impact factor: 7.666

Review 2.  Lipids: chemical tools for their synthesis, modification, and analysis.

Authors:  Judith Flores; Brittany M White; Roberto J Brea; Jeremy M Baskin; Neal K Devaraj
Journal:  Chem Soc Rev       Date:  2020-07-21       Impact factor: 54.564

3.  A Set of Highly Sensitive Sirtuin Fluorescence Probes for Screening Small-Molecular Sirtuin Defatty-Acylase Inhibitors.

Authors:  Yuya Nakajima; Mitsuyasu Kawaguchi; Naoya Ieda; Hidehiko Nakagawa
Journal:  ACS Med Chem Lett       Date:  2021-03-11       Impact factor: 4.345

Review 4.  A Not-So-Ancient Grease History: Click Chemistry and Protein Lipid Modifications.

Authors:  Kiall F Suazo; Keun-Young Park; Mark D Distefano
Journal:  Chem Rev       Date:  2021-04-06       Impact factor: 72.087

5.  NMT1 and NMT2 are lysine myristoyltransferases regulating the ARF6 GTPase cycle.

Authors:  Tatsiana Kosciuk; Ian R Price; Xiaoyu Zhang; Chengliang Zhu; Kayla N Johnson; Shuai Zhang; Steve L Halaby; Garrison P Komaniecki; Min Yang; Caroline J DeHart; Paul M Thomas; Neil L Kelleher; J Christopher Fromme; Hening Lin
Journal:  Nat Commun       Date:  2020-02-26       Impact factor: 14.919

6.  Development of a NanoBRET assay to validate inhibitors of Sirt2-mediated lysine deacetylation and defatty-acylation that block prostate cancer cell migration.

Authors:  A Vogelmann; M Schiedel; N Wössner; A Merz; D Herp; S Hammelmann; A Colcerasa; G Komaniecki; J Y Hong; M Sum; E Metzger; E Neuwirt; L Zhang; O Einsle; O Groß; R Schüle; H Lin; W Sippl; M Jung
Journal:  RSC Chem Biol       Date:  2022-03-01

Review 7.  Protein Lipidation by Palmitoylation and Myristoylation in Cancer.

Authors:  Chee Wai Fhu; Azhar Ali
Journal:  Front Cell Dev Biol       Date:  2021-05-20
  7 in total

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