Literature DB >> 30107178

Therapeutic Ablation of Gain-of-Function Mutant p53 in Colorectal Cancer Inhibits Stat3-Mediated Tumor Growth and Invasion.

Ramona Schulz-Heddergott1, Nadine Stark1, Shelley J Edmunds1, Jinyu Li2, Lena-Christin Conradi3, Hanibal Bohnenberger4, Fatih Ceteci5, Florian R Greten5, Matthias Dobbelstein6, Ute M Moll7.   

Abstract

Over half of colorectal cancers (CRCs) harbor TP53 missense mutations (mutp53). We show that the most common mutp53 allele R248Q (p53Q) exerts gain of function (GOF) and creates tumor dependence in mouse CRC models. mutp53 protein binds Stat3 and enhances activating Stat3 phosphorylation by displacing the phosphatase SHP2. Ablation of the p53Q allele suppressed Jak2/Stat3 signaling, growth, and invasiveness of established, mutp53-driven tumors. Treating tumor-bearing mice with an HSP90 inhibitor suppressed mutp53 levels and tumor growth. Importantly, human CRCs with stabilized mutp53 exhibit enhanced Jak2/Stat3 signaling and are associated with poorer patient survival. Cancers with TP53R248Q/W are associated with a higher patient death risk than are those having nonR248 mutp53. These findings identify GOF mutp53 as a therapeutic target in CRC.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  CRC; GOF; Hsp90; Stat3; azoxymethane (AOM)/dextrane sodium sulfate (DSS)-induced CRC model; cancer cell invasion; colorectal cancer; gain-of-function; genetic APC intestinal cancer model; heat shock protein 90; mutant p53; mutp53; signal transducer and activator of transcription 3

Mesh:

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Year:  2018        PMID: 30107178      PMCID: PMC6582949          DOI: 10.1016/j.ccell.2018.07.004

Source DB:  PubMed          Journal:  Cancer Cell        ISSN: 1535-6108            Impact factor:   31.743


  52 in total

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Review 2.  Revisiting STAT3 signalling in cancer: new and unexpected biological functions.

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Journal:  Nat Rev Cancer       Date:  2014-11       Impact factor: 60.716

3.  High resolution colonoscopy in live mice.

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4.  Functional inactivation of endogenous MDM2 and CHIP by HSP90 causes aberrant stabilization of mutant p53 in human cancer cells.

Authors:  Dun Li; Natalia D Marchenko; Ramona Schulz; Victoria Fischer; Talia Velasco-Hernandez; Flaminia Talos; Ute M Moll
Journal:  Mol Cancer Res       Date:  2011-04-08       Impact factor: 5.852

5.  gp130-mediated Stat3 activation in enterocytes regulates cell survival and cell-cycle progression during colitis-associated tumorigenesis.

Authors:  Julia Bollrath; Toby J Phesse; Vivian A von Burstin; Tracy Putoczki; Moritz Bennecke; Trudie Bateman; Tim Nebelsiek; Therese Lundgren-May; Ozge Canli; Sarah Schwitalla; Vance Matthews; Roland M Schmid; Thomas Kirchner; Melek C Arkan; Matthias Ernst; Florian R Greten
Journal:  Cancer Cell       Date:  2009-02-03       Impact factor: 31.743

6.  Mutant p53 prolongs NF-κB activation and promotes chronic inflammation and inflammation-associated colorectal cancer.

Authors:  Tomer Cooks; Ioannis S Pateras; Ohad Tarcic; Hilla Solomon; Aaron J Schetter; Sylvia Wilder; Guillermina Lozano; Eli Pikarsky; Tim Forshew; Nitzan Rosenfeld; Nitzan Rozenfeld; Noam Harpaz; Steven Itzkowitz; Curtis C Harris; Varda Rotter; Vassilis G Gorgoulis; Moshe Oren
Journal:  Cancer Cell       Date:  2013-05-13       Impact factor: 31.743

7.  Inhibition of CXCR2 profoundly suppresses inflammation-driven and spontaneous tumorigenesis.

Authors:  Thomas Jamieson; Mairi Clarke; Colin W Steele; Michael S Samuel; Jens Neumann; Andreas Jung; David Huels; Michael F Olson; Sudipto Das; Robert J B Nibbs; Owen J Sansom
Journal:  J Clin Invest       Date:  2012-08-27       Impact factor: 14.808

8.  A novel inflammation-related mouse colon carcinogenesis model induced by azoxymethane and dextran sodium sulfate.

Authors:  Takuji Tanaka; Hiroyuki Kohno; Rikako Suzuki; Yasuhiro Yamada; Shigeyuki Sugie; Hideki Mori
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9.  Loss of p53 in enterocytes generates an inflammatory microenvironment enabling invasion and lymph node metastasis of carcinogen-induced colorectal tumors.

Authors:  Sarah Schwitalla; Paul K Ziegler; David Horst; Valentin Becker; Irina Kerle; Yvonne Begus-Nahrmann; André Lechel; K Lenhard Rudolph; Rupert Langer; Julia Slotta-Huspenina; Franz G Bader; Olivia Prazeres da Costa; Markus F Neurath; Alexander Meining; Thomas Kirchner; Florian R Greten
Journal:  Cancer Cell       Date:  2012-12-27       Impact factor: 31.743

10.  Expression of osteopontin coregulators in primary colorectal cancer and associated liver metastases.

Authors:  D J Mole; C O'Neill; P Hamilton; B Olabi; V Robinson; L Williams; T Diamond; M El-Tanani; F C Campbell
Journal:  Br J Cancer       Date:  2011-02-22       Impact factor: 7.640
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  63 in total

1.  A Gain-of-Function p53-Mutant Oncogene Promotes Cell Fate Plasticity and Myeloid Leukemia through the Pluripotency Factor FOXH1.

Authors:  Evangelia Loizou; Ana Banito; Geulah Livshits; Yu-Jui Ho; Richard P Koche; Francisco J Sánchez-Rivera; Allison Mayle; Chi-Chao Chen; Savvas Kinalis; Frederik O Bagger; Edward R Kastenhuber; Benjamin H Durham; Scott W Lowe
Journal:  Cancer Discov       Date:  2019-05-08       Impact factor: 39.397

Review 2.  Context is everything: extrinsic signalling and gain-of-function p53 mutants.

Authors:  Ivano Amelio; Gerry Melino
Journal:  Cell Death Discov       Date:  2020-03-23

3.  Oncogenic pathways activated by pro-inflammatory cytokines promote mutant p53 stability: clue for novel anticancer therapies.

Authors:  Gabriella D'Orazi; Marco Cordani; Mara Cirone
Journal:  Cell Mol Life Sci       Date:  2020-10-17       Impact factor: 9.261

4.  Gain of function mutant p53 protein activates AKT through the Rac1 signaling to promote tumorigenesis.

Authors:  Xuetian Yue; Fangnan Wu; Yanchen Li; Juan Liu; Michael Boateng; Kranthi Mandava; Cen Zhang; Zhaohui Feng; Jimin Gao; Wenwei Hu
Journal:  Cell Cycle       Date:  2020-04-10       Impact factor: 4.534

5.  Ceramide-Rubusoside Nanomicelles, a Potential Therapeutic Approach to Target Cancers Carrying p53 Missense Mutations.

Authors:  Sachin K Khiste; Zhijun Liu; Kartik R Roy; Mohammad B Uddin; Salman B Hosain; Xin Gu; Sami Nazzal; Ronald A Hill; Yong-Yu Liu
Journal:  Mol Cancer Ther       Date:  2019-10-23       Impact factor: 6.261

6.  Mutant p53 drives cancer chemotherapy resistance due to loss of function on activating transcription of PUMA.

Authors:  Yuan Huang; Nannan Liu; Jing Liu; Yeying Liu; Chuchu Zhang; Shuaiyu Long; Guang Luo; Lingling Zhang; Yingjie Zhang
Journal:  Cell Cycle       Date:  2019-11-14       Impact factor: 4.534

Review 7.  Transcription factors in colorectal cancer: molecular mechanism and therapeutic implications.

Authors:  Hui Xu; Lei Liu; Weilin Li; Duowu Zou; Jun Yu; Lifu Wang; Chi Chun Wong
Journal:  Oncogene       Date:  2020-12-15       Impact factor: 9.867

8.  CircTBL1XR1/miR-424 axis regulates Smad7 to promote the proliferation and metastasis of colorectal cancer.

Authors:  Na Li
Journal:  J Gastrointest Oncol       Date:  2020-10

9.  TP53 abnormalities correlate with immune infiltration and associate with response to flotetuzumab immunotherapy in AML.

Authors:  Jayakumar Vadakekolathu; Catherine Lai; Stephen Reeder; Sarah E Church; Tressa Hood; Anbarasu Lourdusamy; Michael P Rettig; Ibrahim Aldoss; Anjali S Advani; John Godwin; Matthew J Wieduwilt; Martha Arellano; John Muth; Tung On Yau; Farhad Ravandi; Kendra Sweet; Heidi Altmann; Gemma A Foulds; Friedrich Stölzel; Jan Moritz Middeke; Marilena Ciciarello; Antonio Curti; Peter J M Valk; Bob Löwenberg; Ivana Gojo; Martin Bornhäuser; John F DiPersio; Jan K Davidson-Moncada; Sergio Rutella
Journal:  Blood Adv       Date:  2020-10-27

Review 10.  The inflammatory pathogenesis of colorectal cancer.

Authors:  Mark Schmitt; Florian R Greten
Journal:  Nat Rev Immunol       Date:  2021-04-28       Impact factor: 53.106
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