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Literature DB >> 25573952

Mutant p53 Amplifies Epidermal Growth Factor Receptor Family Signaling to Promote Mammary Tumorigenesis.

Alisha R Yallowitz¹, Dun Li¹, Anthony Lobko¹, Daniel Mott¹, Alice Nemajerova¹, Natalia Marchenko².

Abstract

UNLABELLED: The EGFR family (ErbB2/Her2 and EGFR/ErbB1/Her1) often modulates the transcriptional program involved in promoting mammary tumorigenesis. In humans, the majority of ErbB2-positive sporadic breast cancers harbor p53 mutations, which correlate with poor prognosis. Also, the extremely high incidence of ErbB2-positive breast cancer in women with p53 germline mutations (Li-Fraumeni syndrome) suggests a key role of mutant p53 specifically in ErbB2-mediated mammary tumorigenesis. To examine the role of mutant p53 during ErbB2-mediated mammary tumorigenesis, a mutant p53 allele (R172H) was introduced into the (MMTV)-ErbB2/Neu mouse model system. Interestingly, we show in heterozygous p53 mice that mutant p53 R172H is a more potent activator of ErbB2-mediated mammary tumorigenesis than simple loss of p53. The more aggressive disease in mutant p53 animals was reflected by earlier tumor onset, increased mammary tumor multiplicity, and shorter survival. These in vivo and in vitro data provide mechanistic evidence that mutant p53 amplifies ErbB2 and EGFR signaling to promote the expansion of mammary stem cells and induce cell proliferation. IMPLICATIONS: This study identifies mutant p53 as an essential player in ErbB2 and EGFR-mediated mammary tumorigenesis and indicates the potential translational importance of targeting mutant p53 in this subset of patients with breast cancer. ©2015 American Association for Cancer Research.

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Year: 2015 PMID： 25573952 PMCID： PMC4824060 DOI： 10.1158/1541-7786.MCR-14-0360

Source DB: PubMed Journal: Mol Cancer Res ISSN： 1541-7786 Impact factor: 5.852

47 in total

1. SAHA shows preferential cytotoxicity in mutant p53 cancer cells by destabilizing mutant p53 through inhibition of the HDAC6-Hsp90 chaperone axis.

Authors: D Li; N D Marchenko; U M Moll
Journal: Cell Death Differ Date: 2011-06-03 Impact factor: 15.828

2. Mutant p53 disrupts mammary tissue architecture via the mevalonate pathway.

Authors: William A Freed-Pastor; Hideaki Mizuno; Xi Zhao; Anita Langerød; Sung-Hwan Moon; Ruth Rodriguez-Barrueco; Anthony Barsotti; Agustin Chicas; Wencheng Li; Alla Polotskaia; Mina J Bissell; Timothy F Osborne; Bin Tian; Scott W Lowe; Jose M Silva; Anne-Lise Børresen-Dale; Arnold J Levine; Jill Bargonetti; Carol Prives
Journal: Cell Date: 2012-01-20 Impact factor: 41.582

3. Multiple stress signals activate mutant p53 in vivo.

Authors: Young-Ah Suh; Sean M Post; Ana C Elizondo-Fraire; Daniela R Maccio; James G Jackson; Adel K El-Naggar; Carolyn Van Pelt; Tamara Terzian; Guillermina Lozano
Journal: Cancer Res Date: 2011-10-07 Impact factor: 12.701

4. An alternatively spliced HDM2 product increases p53 activity by inhibiting HDM2.

Authors: S C Evans; M Viswanathan; J D Grier; M Narayana; A K El-Naggar; G Lozano
Journal: Oncogene Date: 2001-07-05 Impact factor: 9.867

5. Inactivation of p53 in breast cancers correlates with stem cell transcriptional signatures.

Authors: Hideaki Mizuno; Benjamin T Spike; Geoffrey M Wahl; Arnold J Levine
Journal: Proc Natl Acad Sci U S A Date: 2010-12-13 Impact factor: 11.205

6. 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

7. The tumor suppressor p53 regulates polarity of self-renewing divisions in mammary stem cells.

Authors: Angelo Cicalese; Giuseppina Bonizzi; Cristina E Pasi; Mario Faretta; Simona Ronzoni; Barbara Giulini; Cathrin Brisken; Saverio Minucci; Pier Paolo Di Fiore; Pier Giuseppe Pelicci
Journal: Cell Date: 2009-09-18 Impact factor: 41.582

Review 8. The organizing principle: microenvironmental influences in the normal and malignant breast.

Authors: Mina J Bissell; Derek C Radisky; Aylin Rizki; Valerie M Weaver; Ole W Petersen
Journal: Differentiation Date: 2002-12 Impact factor: 3.880

9. A mutant TP53 gene status is associated with a poor prognosis and anthracycline-resistance in breast cancer patients.

Authors: E Rahko; G Blanco; Y Soini; R Bloigu; A Jukkola
Journal: Eur J Cancer Date: 2003-03 Impact factor: 9.162

10. An adjunct mammary epithelial cell population in parous females: its role in functional adaptation and tissue renewal.

Authors: Kay-Uwe Wagner; Corinne A Boulanger; MaLinda D Henry; Magdalene Sgagias; Lothar Hennighausen; Gilbert H Smith
Journal: Development Date: 2002-03 Impact factor: 6.868

17 in total

1. NEDD4 over-expression regulates the afatinib resistant phenotype of NSCLC cells.

Authors: Laurence Booth; Jane L Roberts; Andrew Poklepovic; Paul Dent
Journal: Oncol Signal Date: 2017-08-16

2. Long-term treatment with EGFR inhibitor erlotinib attenuates renal inflammatory cytokines but not nephropathy in Alport syndrome mouse model.

Authors: Kohei Omachi; Rui Miyakita; Ryosuke Fukuda; Yukari Kai; Mary Ann Suico; Tsubasa Yokota; Misato Kamura; Tsuyoshi Shuto; Hirofumi Kai
Journal: Clin Exp Nephrol Date: 2017-02-08 Impact factor: 2.801

10. Genomic Profiling on an Unselected Solid Tumor Population Reveals a Highly Mutated Wnt/β-Catenin Pathway Associated with Oncogenic EGFR Mutations.

Authors: Jingrui Jiang; Alexei Protopopov; Ruobai Sun; Stephen Lyle; Meaghan Russell
Journal: J Pers Med Date: 2018-04-09

Mutant p53 Amplifies Epidermal Growth Factor Receptor Family Signaling to Promote Mammary Tumorigenesis.

1. SAHA shows preferential cytotoxicity in mutant p53 cancer cells by destabilizing mutant p53 through inhibition of the HDAC6-Hsp90 chaperone axis.

2. Mutant p53 disrupts mammary tissue architecture via the mevalonate pathway.

3. Multiple stress signals activate mutant p53 in vivo.

4. An alternatively spliced HDM2 product increases p53 activity by inhibiting HDM2.

5. Inactivation of p53 in breast cancers correlates with stem cell transcriptional signatures.

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

7. The tumor suppressor p53 regulates polarity of self-renewing divisions in mammary stem cells.

Review 8. The organizing principle: microenvironmental influences in the normal and malignant breast.

9. A mutant TP53 gene status is associated with a poor prognosis and anthracycline-resistance in breast cancer patients.

10. An adjunct mammary epithelial cell population in parous females: its role in functional adaptation and tissue renewal.

1. NEDD4 over-expression regulates the afatinib resistant phenotype of NSCLC cells.

2. Long-term treatment with EGFR inhibitor erlotinib attenuates renal inflammatory cytokines but not nephropathy in Alport syndrome mouse model.

Review 3. Is loss of p53 a driver of ductal carcinoma in situ progression?

Review 4. Mutant p53 - Heat Shock Response Oncogenic Cooperation: A New Mechanism of Cancer Cell Survival.

5. ErbB2 inhibition by lapatinib promotes degradation of mutant p53 protein in cancer cells.

6. Heat shock factor 1 confers resistance to lapatinib in ERBB2-positive breast cancer cells.

Review 7. p53 and metabolism: from mechanism to therapeutics.

8. Loss of TRP53 (p53) accelerates tumorigenesis and changes the tumor spectrum of SJL/J mice.

Review 9. Molecular Mechanisms Governing the Stem Cell's Fate in Brain Cancer: Factors of Stemness and Quiescence.

10. Genomic Profiling on an Unselected Solid Tumor Population Reveals a Highly Mutated Wnt/β-Catenin Pathway Associated with Oncogenic EGFR Mutations.