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Literature DB >> 25253614

Effect of p95HER2/611CTF on the response to trastuzumab and chemotherapy.

Josep Lluís Parra-Palau¹, Beatriz Morancho¹, Vicente Peg², Marta Escorihuela², Maurizio Scaltriti², Rocio Vicario², Mariano Zacarias-Fluck², Kim Pedersen², Atanasio Pandiella², Paolo Nuciforo², Violeta Serra², Javier Cortés², José Baselga², Charles M Perou², Aleix Prat², Isabel T Rubio², Joaquín Arribas².

Abstract

Human epidermal growth factor receptor 2 (HER2)-positive breast cancers are currently treated with trastuzumab, an anti-HER2 antibody. About 30% of these tumors express a group of HER2 fragments collectively known as p95HER2. Our previous work indicated that p95HER2-positive tumors are resistant to trastuzumab monotherapy. However, recent results showed that tumors expressing the most active of these fragments, p95HER2/611CTF, respond to trastuzumab plus chemotherapy. To clarify this discrepancy, we analyzed the response to chemotherapy of cell lines transfected with p95HER2/611CTF and patient-derived xenografts (n = 7 mice per group) with different levels of the fragment. All statistical tests were two-sided. p95HER2/611CTF-negative and positive tumors showed different responses to various chemotherapeutic agents, which are particularly effective on p95HER2/611CTF-positive cells. Furthermore, chemotherapy sensitizes p95HER2/611CTF-positive patient-derived xenograft tumors to trastuzumab (mean tumor volume, trastuzumab alone: 906 mm(3), 95% confidence interval = 1274 to 538 mm(3); trastuzumab+doxorubicin: 259 mm(3), 95% confidence interval = 387 to 131 mm(3); P < .001). This sensitization may be related to HER2 stabilization induced by chemotherapy in p95HER2/611CTF-positive cells.

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Year: 2014 PMID： 25253614 PMCID： PMC4271027 DOI： 10.1093/jnci/dju291

Source DB: PubMed Journal: J Natl Cancer Inst ISSN： 0027-8874 Impact factor: 13.506

16 in total

1. Research-based PAM50 subtype predictor identifies higher responses and improved survival outcomes in HER2-positive breast cancer in the NOAH study.

Authors: Aleix Prat; Giampaolo Bianchini; Marlene Thomas; Anton Belousov; Maggie C U Cheang; Astrid Koehler; Patricia Gómez; Vladimir Semiglazov; Wolfgang Eiermann; Sergei Tjulandin; Mikhail Byakhow; Begoña Bermejo; Milvia Zambetti; Federico Vazquez; Luca Gianni; José Baselga
Journal: Clin Cancer Res Date: 2014-01-15 Impact factor: 12.531

2. Inhibitory anti-FLT3 antibodies are capable of mediating antibody-dependent cell-mediated cytotoxicity and reducing engraftment of acute myelogenous leukemia blasts in nonobese diabetic/severe combined immunodeficient mice.

Authors: Obdulio Piloto; Mark Levis; David Huso; Yiwen Li; Hongli Li; Mei-Nai Wang; Rajiv Bassi; Paul Balderes; Dale L Ludwig; Larry Witte; Zhenping Zhu; Daniel J Hicklin; Donald Small
Journal: Cancer Res Date: 2005-02-15 Impact factor: 12.701

3. Specificity of HercepTest in determining HER-2/neu status of breast cancers using the United States Food and Drug Administration-approved scoring system.

Authors: T W Jacobs; A M Gown; H Yaziji; M J Barnes; S J Schnitt
Journal: J Clin Oncol Date: 1999-07 Impact factor: 44.544

4. Quantitation of p95HER2 in paraffin sections by using a p95-specific antibody and correlation with outcome in a cohort of trastuzumab-treated breast cancer patients.

Authors: Jeff Sperinde; Xueguang Jin; Jayee Banerjee; Elicia Penuel; Anasuya Saha; Gundo Diedrich; Weidong Huang; Kim Leitzel; Jodi Weidler; Suhail M Ali; Eva-Maria Fuchs; Christian F Singer; Wolfgang J Köstler; Michael Bates; Gordon Parry; John Winslow; Allan Lipton
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5. Pilot study of the mechanism of action of preoperative trastuzumab in patients with primary operable breast tumors overexpressing HER2.

Authors: Roberto Gennari; Sylvie Menard; Francesco Fagnoni; Luisa Ponchio; Mario Scelsi; Elda Tagliabue; Fabio Castiglioni; Laura Villani; Cesare Magalotti; Nadia Gibelli; Barbara Oliviero; Bettina Ballardini; Gianantonio Da Prada; Alberto Zambelli; Alberto Costa
Journal: Clin Cancer Res Date: 2004-09-01 Impact factor: 12.531

6. Supervised risk predictor of breast cancer based on intrinsic subtypes.

Authors: Joel S Parker; Michael Mullins; Maggie C U Cheang; Samuel Leung; David Voduc; Tammi Vickery; Sherri Davies; Christiane Fauron; Xiaping He; Zhiyuan Hu; John F Quackenbush; Inge J Stijleman; Juan Palazzo; J S Marron; Andrew B Nobel; Elaine Mardis; Torsten O Nielsen; Matthew J Ellis; Charles M Perou; Philip S Bernard
Journal: J Clin Oncol Date: 2009-02-09 Impact factor: 44.544

7. Rational combinations of trastuzumab with chemotherapeutic drugs used in the treatment of breast cancer.

Authors: Mark D Pegram; Gottfried E Konecny; Carminda O'Callaghan; Malgorzata Beryt; Richard Pietras; Dennis J Slamon
Journal: J Natl Cancer Inst Date: 2004-05-19 Impact factor: 13.506

8. A naturally occurring HER2 carboxy-terminal fragment promotes mammary tumor growth and metastasis.

Authors: Kim Pedersen; Pier-Davide Angelini; Sirle Laos; Alba Bach-Faig; Matthew P Cunningham; Cristina Ferrer-Ramón; Antonio Luque-García; Jesús García-Castillo; Josep Lluis Parra-Palau; Maurizio Scaltriti; Santiago Ramón y Cajal; José Baselga; Joaquín Arribas
Journal: Mol Cell Biol Date: 2009-04-13 Impact factor: 4.272

9. Expression of p95HER2, a truncated form of the HER2 receptor, and response to anti-HER2 therapies in breast cancer.

Authors: Maurizio Scaltriti; Federico Rojo; Alberto Ocaña; Judit Anido; Marta Guzman; Javier Cortes; Serena Di Cosimo; Xavier Matias-Guiu; Santiago Ramon y Cajal; Joaquin Arribas; José Baselga
Journal: J Natl Cancer Inst Date: 2007-04-18 Impact factor: 13.506

10. Lapatinib, a HER2 tyrosine kinase inhibitor, induces stabilization and accumulation of HER2 and potentiates trastuzumab-dependent cell cytotoxicity.

Authors: M Scaltriti; C Verma; M Guzman; J Jimenez; J L Parra; K Pedersen; D J Smith; S Landolfi; S Ramon y Cajal; J Arribas; J Baselga
Journal: Oncogene Date: 2008-12-08 Impact factor: 9.867

21 in total

1. Quantitative HER2 and p95HER2 levels in primary breast cancers and matched brain metastases.

Authors: Renata Duchnowska; Jeff Sperinde; Ahmed Chenna; Weidong Huang; Jodi M Weidler; John Winslow; Mojgan Haddad; Agnes Paquet; Yolanda Lie; Tomasz Trojanowski; Tomasz Mandat; Anna Kowalczyk; Bogumiła Czartoryska-Arłukowicz; Barbara Radecka; Bożena Jarosz; Rafal Staszkiewicz; Ewa Kalinka-Warzocha; Małgorzata Chudzik; Wojciech Biernat; Jacek Jassem
Journal: Neuro Oncol Date: 2015-02-13 Impact factor: 12.300

2. High p95HER2/HER2 Ratio Associated With Poor Outcome in Trastuzumab-Treated HER2-Positive Metastatic Breast Cancer NCCTG N0337 and NCCTG 98-32-52 (Alliance).

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Journal: Clin Cancer Res Date: 2018-03-12 Impact factor: 12.531

Review 3. The Therapeutic Challenge of Targeting HER2 in Endometrial Cancer.

Authors: Elisabeth J Diver; Rosemary Foster; Bo R Rueda; Whitfield B Growdon
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4. HER2 over-expressing high grade endometrial cancer expresses high levels of p95HER2 variant.

Authors: Whitfield B Growdon; Jolijn Groeneweg; Virginia Byron; Celeste DiGloria; Darrell R Borger; Rosemary Tambouret; Rosemary Foster; Ahmed Chenna; Jeff Sperinde; John Winslow; Bo R Rueda
Journal: Gynecol Oncol Date: 2015-01-17 Impact factor: 5.482

Review 5. Predictive biomarkers for molecularly targeted therapies and immunotherapies in breast cancer.

Authors: Mi Jeong Kwon
Journal: Arch Pharm Res Date: 2022-08-18 Impact factor: 6.010

6. p95HER2-T cell bispecific antibody for breast cancer treatment.

Authors: Irene Rius Ruiz; Rocio Vicario; Beatriz Morancho; Cristina Bernadó Morales; Enrique J Arenas; Sylvia Herter; Anne Freimoser-Grundschober; Jitka Somandin; Johannes Sam; Oliver Ast; Águeda Martinez Barriocanal; Antonio Luque; Marta Escorihuela; Ismael Varela; Isabel Cuartas; Paolo Nuciforo; Roberta Fasani; Vicente Peg; Isabel Rubio; Javier Cortés; Violeta Serra; Santiago Escriva-de-Romani; Jeff Sperinde; Ahmed Chenna; Weidong Huang; John Winslow; Joan Albanell; Joan Seoane; Maurizio Scaltriti; Jose Baselga; Josep Tabernero; Pablo Umana; Marina Bacac; Cristina Saura; Christian Klein; Joaquín Arribas
Journal: Sci Transl Med Date: 2018-10-03 Impact factor: 17.956

7. Patterns of HER2 Gene Amplification and Response to Anti-HER2 Therapies.

Authors: Rocio Vicario; Vicente Peg; Beatriz Morancho; Mariano Zacarias-Fluck; Junjie Zhang; Águeda Martínez-Barriocanal; Alexandra Navarro Jiménez; Claudia Aura; Octavio Burgues; Ana Lluch; Javier Cortés; Paolo Nuciforo; Isabel T Rubio; Elisabetta Marangoni; James Deeds; Markus Boehm; Robert Schlegel; Josep Tabernero; Rebecca Mosher; Joaquín Arribas
Journal: PLoS One Date: 2015-06-15 Impact factor: 3.240

Review 8. Novel approaches to target HER2-positive breast cancer: trastuzumab emtansine.

Authors: Gonzalo Recondo; Maximo de la Vega; Fernando Galanternik; Enrique Díaz-Cantón; Bernardo Amadeo Leone; José Pablo Leone
Journal: Cancer Manag Res Date: 2016-05-19 Impact factor: 3.989

Review 9. The root cause of drug resistance in HER2-positive breast cancer and the therapeutic approaches to overcoming the resistance.

Authors: Yuesheng Zhang
Journal: Pharmacol Ther Date: 2020-09-06 Impact factor: 12.310

Review 10. Analysis of different HER-2 mutations in breast cancer progression and drug resistance.

Authors: Zijia Sun; Yaqin Shi; Yan Shen; Lulu Cao; Wenwen Zhang; Xiaoxiang Guan
Journal: J Cell Mol Med Date: 2015-08-25 Impact factor: 5.310