Literature DB >> 32366477

HACE1 Prevents Lung Carcinogenesis via Inhibition of RAC-Family GTPases.

Melanie Kogler1, Luigi Tortola2,3, Gian Luca Negri4,5,6, Alexandra Leopoldi1, Amal M El-Naggar4,5,7, Stefan Mereiter1, Carlos Gomez-Diaz1, Roberto Nitsch1,8, Davide Tortora9,10, Anoop M Kavirayani11, Bianca V Gapp1, Shuan Rao1, Iris Uribesalgo1, David Hoffmann1, Domagoj Cikes1, Maria Novatchkova12, David A Williams13, Jeffrey M Trent14, Fumiyo Ikeda1, Mads Daugaard9,10, Astrid Hagelkruys1, Poul H Sorensen4,5, Josef M Penninger2,15.   

Abstract

HACE1 is an E3 ubiquitin ligase with important roles in tumor biology and tissue homeostasis. Loss or mutation of HACE1 has been associated with the occurrence of a variety of neoplasms, but the underlying mechanisms have not been defined yet. Here, we report that HACE1 is frequently mutated in human lung cancer. In mice, loss of Hace1 led to enhanced progression of KRasG12D -driven lung tumors. Additional ablation of the oncogenic GTPase Rac1 partially reduced progression of Hace1-/- lung tumors. RAC2, a novel ubiquitylation target of HACE1, could compensate for the absence of its homolog RAC1 in Hace1-deficient, but not in HACE1-sufficient tumors. Accordingly, ablation of both Rac1 and Rac2 fully averted the increased progression of KRasG12D -driven lung tumors in Hace1-/- mice. In patients with lung cancer, increased expression of HACE1 correlated with reduced levels of RAC1 and RAC2 and prolonged survival, whereas elevated expression of RAC1 and RAC2 was associated with poor prognosis. This work defines HACE1 as a crucial regulator of the oncogenic activity of RAC-family GTPases in lung cancer development. SIGNIFICANCE: These findings reveal that mutation of the tumor suppressor HACE1 disrupts its role as a regulator of the oncogenic activity of RAC-family GTPases in human and murine lung cancer. GRAPHICAL ABSTRACT: http://cancerres.aacrjournals.org/content/canres/80/14/3009/F1.large.jpg. ©2020 American Association for Cancer Research.

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Year:  2020        PMID: 32366477      PMCID: PMC7611202          DOI: 10.1158/0008-5472.CAN-19-2270

Source DB:  PubMed          Journal:  Cancer Res        ISSN: 0008-5472            Impact factor:   12.701


  54 in total

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Journal:  Genes Dev       Date:  2001-12-15       Impact factor: 11.361

2.  Differential expression of a novel ankyrin containing E3 ubiquitin-protein ligase, Hace1, in sporadic Wilms' tumor versus normal kidney.

Authors:  Michael S Anglesio; Valentina Evdokimova; Nataliya Melnyk; Liyong Zhang; Conrad V Fernandez; Paul E Grundy; Stephen Leach; Marco A Marra; Angela R Brooks-Wilson; Josef Penninger; Poul H B Sorensen
Journal:  Hum Mol Genet       Date:  2004-07-14       Impact factor: 6.150

3.  RAC1P29S is a spontaneously activating cancer-associated GTPase.

Authors:  Matthew J Davis; Byung Hak Ha; Edna C Holman; Ruth Halaban; Joseph Schlessinger; Titus J Boggon
Journal:  Proc Natl Acad Sci U S A       Date:  2013-01-02       Impact factor: 11.205

4.  Kinase RIP3 is dispensable for normal NF-kappa Bs, signaling by the B-cell and T-cell receptors, tumor necrosis factor receptor 1, and Toll-like receptors 2 and 4.

Authors:  Kim Newton; Xiaoqing Sun; Vishva M Dixit
Journal:  Mol Cell Biol       Date:  2004-02       Impact factor: 4.272

5.  Proliferative and nonproliferative lesions of the rat and mouse respiratory tract.

Authors:  Roger Renne; Amy Brix; Jack Harkema; Ron Herbert; Birgit Kittel; David Lewis; Thomas March; Kasuke Nagano; Michael Pino; Susanne Rittinghausen; Martin Rosenbruch; Pierre Tellier; Thomas Wohrmann
Journal:  Toxicol Pathol       Date:  2009-12       Impact factor: 1.902

6.  Conditional mouse lung cancer models using adenoviral or lentiviral delivery of Cre recombinase.

Authors:  Michel DuPage; Alison L Dooley; Tyler Jacks
Journal:  Nat Protoc       Date:  2009-06-25       Impact factor: 13.491

7.  Requirement for Rac1 in a K-ras induced lung cancer in the mouse.

Authors:  Joseph L Kissil; Marita J Walmsley; Linda Hanlon; Kevin M Haigis; Carla F Bender Kim; Alejandro Sweet-Cordero; Matthew S Eckman; David A Tuveson; Anthony J Capobianco; Victor L J Tybulewicz; Tyler Jacks
Journal:  Cancer Res       Date:  2007-09-01       Impact factor: 12.701

8.  Distinct patterns of somatic genome alterations in lung adenocarcinomas and squamous cell carcinomas.

Authors:  Joshua D Campbell; Anton Alexandrov; Jaegil Kim; Jeremiah Wala; Alice H Berger; Chandra Sekhar Pedamallu; Sachet A Shukla; Guangwu Guo; Angela N Brooks; Bradley A Murray; Marcin Imielinski; Xin Hu; Shiyun Ling; Rehan Akbani; Mara Rosenberg; Carrie Cibulskis; Aruna Ramachandran; Eric A Collisson; David J Kwiatkowski; Michael S Lawrence; John N Weinstein; Roel G W Verhaak; Catherine J Wu; Peter S Hammerman; Andrew D Cherniack; Gad Getz; Maxim N Artyomov; Robert Schreiber; Ramaswamy Govindan; Matthew Meyerson
Journal:  Nat Genet       Date:  2016-05-09       Impact factor: 38.330

9.  Common variation at 6q16 within HACE1 and LIN28B influences susceptibility to neuroblastoma.

Authors:  Sharon J Diskin; Mario Capasso; Robert W Schnepp; Kristina A Cole; Edward F Attiyeh; Cuiping Hou; Maura Diamond; Erica L Carpenter; Cynthia Winter; Hanna Lee; Jayanti Jagannathan; Valeria Latorre; Achille Iolascon; Hakon Hakonarson; Marcella Devoto; John M Maris
Journal:  Nat Genet       Date:  2012-09-02       Impact factor: 38.330

10.  COSMIC: the Catalogue Of Somatic Mutations In Cancer.

Authors:  John G Tate; Sally Bamford; Harry C Jubb; Zbyslaw Sondka; David M Beare; Nidhi Bindal; Harry Boutselakis; Charlotte G Cole; Celestino Creatore; Elisabeth Dawson; Peter Fish; Bhavana Harsha; Charlie Hathaway; Steve C Jupe; Chai Yin Kok; Kate Noble; Laura Ponting; Christopher C Ramshaw; Claire E Rye; Helen E Speedy; Ray Stefancsik; Sam L Thompson; Shicai Wang; Sari Ward; Peter J Campbell; Simon A Forbes
Journal:  Nucleic Acids Res       Date:  2019-01-08       Impact factor: 16.971
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  5 in total

1.  HACE1 blocks HIF1α accumulation under hypoxia in a RAC1 dependent manner.

Authors:  Busra Turgu; Fan Zhang; Amal El-Naggar; Gian Luca Negri; Melanie Kogler; Luigi Tortola; Fraser Johnson; Tony Ng; Amy Li; Donald Yapp; William Lockwood; Daniel Martinez; John M Maris; Mads Daugaard; Josef M Penninger; Christopher S Hughes; Poul H Sorensen
Journal:  Oncogene       Date:  2021-02-18       Impact factor: 9.867

2.  Macrophage ALDH2 (Aldehyde Dehydrogenase 2) Stabilizing Rac2 Is Required for Efferocytosis Internalization and Reduction of Atherosclerosis Development.

Authors:  Jian Zhang; Xiangkai Zhao; Yunyun Guo; Zhiping Liu; Shujian Wei; Qiuhuan Yuan; Haixia Shang; Wentao Sang; Sumei Cui; Tonghui Xu; Kehui Yang; Jialin Guo; Chang Pan; Jiali Wang; Jiaojiao Pang; Tianrui Han; Yuguo Chen; Feng Xu
Journal:  Arterioscler Thromb Vasc Biol       Date:  2022-03-31       Impact factor: 10.514

3.  Optineurin links Hace1-dependent Rac ubiquitylation to integrin-mediated mechanotransduction to control bacterial invasion and cell division.

Authors:  Serena Petracchini; Daniel Hamaoui; Anne Doye; Atef Asnacios; Florian Fage; Elisa Vitiello; Martial Balland; Sebastien Janel; Frank Lafont; Mukund Gupta; Benoit Ladoux; Jerôme Gilleron; Teresa M Maia; Francis Impens; Laurent Gagnoux-Palacios; Mads Daugaard; Poul H Sorensen; Emmanuel Lemichez; Amel Mettouchi
Journal:  Nat Commun       Date:  2022-10-13       Impact factor: 17.694

Review 4.  Rac1, A Potential Target for Tumor Therapy.

Authors:  Jiaxin Liang; Linda Oyang; Shan Rao; Yaqian Han; Xia Luo; Pin Yi; Jinguan Lin; Longzheng Xia; Jiaqi Hu; Shiming Tan; Lu Tang; Qing Pan; Yanyan Tang; Yujuan Zhou; Qianjin Liao
Journal:  Front Oncol       Date:  2021-05-17       Impact factor: 6.244

5.  GEFT Inhibits Autophagy and Apoptosis in Rhabdomyosarcoma via Activation of the Rac1/Cdc42-mTOR Signaling Pathway.

Authors:  Chunsen Li; Zhenzhen Li; Lingxie Song; Lian Meng; Guixuan Xu; Haijun Zhang; Jianming Hu; Feng Li; Chunxia Liu
Journal:  Front Oncol       Date:  2021-06-18       Impact factor: 6.244
  5 in total

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