Literature DB >> 24670687

Cytotoxicity of paclitaxel in breast cancer is due to chromosome missegregation on multipolar spindles.

Lauren M Zasadil1, Kristen A Andersen, Dabin Yeum, Gabrielle B Rocque, Lee G Wilke, Amye J Tevaarwerk, Ronald T Raines, Mark E Burkard, Beth A Weaver.   

Abstract

The blockbuster chemotherapy drug paclitaxel is widely presumed to cause cell death in tumors as a consequence of mitotic arrest, as it does at concentrations routinely used in cell culture. However, we determine here that paclitaxel levels in primary breast tumors are well below those required to elicit sustained mitotic arrest. Instead, cells in these lower concentrations of drug proceed through mitosis without substantial delay and divide their chromosomes on multipolar spindles, resulting in chromosome missegregation and cell death. Consistent with these cell culture data, most mitotic cells in primary human breast cancers contain multipolar spindles after paclitaxel treatment. Contrary to the previous hypothesis, we find that mitotic arrest is dispensable for tumor regression in patients. These results demonstrate that mitotic arrest is not responsible for the efficacy of paclitaxel, which occurs because of chromosome missegregation on highly abnormal, multipolar spindles. This mechanistic insight may be used to improve selection of future antimitotic drugs and to identify a biomarker with which to select patients likely to benefit from paclitaxel.

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Year:  2014        PMID: 24670687      PMCID: PMC4176609          DOI: 10.1126/scitranslmed.3007965

Source DB:  PubMed          Journal:  Sci Transl Med        ISSN: 1946-6234            Impact factor:   17.956


  55 in total

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  141 in total

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2.  Poly(2-oxazoline) based micelles with high capacity for 3rd generation taxoids: preparation, in vitro and in vivo evaluation.

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Journal:  J Control Release       Date:  2015-02-26       Impact factor: 9.776

3.  The Potential Predictors in Chemotherapy Sensitivity.

Authors:  Eun-Kyu Kim; Hee-Chul Shin
Journal:  Adv Exp Med Biol       Date:  2021       Impact factor: 2.622

Review 4.  Clinical Pharmacokinetics of Paclitaxel Monotherapy: An Updated Literature Review.

Authors:  Tore B Stage; Troels K Bergmann; Deanna L Kroetz
Journal:  Clin Pharmacokinet       Date:  2018-01       Impact factor: 6.447

5.  Drug-Polymer Interaction, Pharmacokinetics and Antitumor Effect of PEG-PLA/Taxane Derivative TM-2 Micelles for Intravenous Drug Delivery.

Authors:  Qiao Wang; Yi Liu; Chenguang Pu; Hongjuan Zhang; Xinyi Tan; Jingxin Gou; Haibing He; Tian Yin; Yu Zhang; Yanjiao Wang; Xing Tang
Journal:  Pharm Res       Date:  2018-09-13       Impact factor: 4.200

6.  Pooled Genomic Screens Identify Anti-apoptotic Genes as Targetable Mediators of Chemotherapy Resistance in Ovarian Cancer.

Authors:  Elizabeth H Stover; Maria B Baco; Ofir Cohen; Yvonne Y Li; Elizabeth L Christie; Mukta Bagul; Amy Goodale; Yenarae Lee; Sasha Pantel; Matthew G Rees; Guo Wei; Adam G Presser; Maya K Gelbard; Weiqun Zhang; Ioannis K Zervantonakis; Patrick D Bhola; Jeremy Ryan; Jennifer L Guerriero; Joan Montero; Felice J Liang; Andrew D Cherniack; Federica Piccioni; Ursula A Matulonis; David D L Bowtell; Kristopher A Sarosiek; Anthony Letai; Levi A Garraway; Cory M Johannessen; Matthew Meyerson
Journal:  Mol Cancer Res       Date:  2019-08-28       Impact factor: 5.852

7.  Taxane-mediated radiosensitization derives from chromosomal missegregation on tripolar mitotic spindles orchestrated by AURKA and TPX2.

Authors:  M Orth; K Unger; U Schoetz; C Belka; K Lauber
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8.  A combination of the telomerase inhibitor, BIBR1532, and paclitaxel synergistically inhibit cell proliferation in breast cancer cell lines.

Authors:  Yi Shi; Lin Sun; Ge Chen; Dongyan Zheng; Li Li; Wanguo Wei
Journal:  Target Oncol       Date:  2015-04-29       Impact factor: 4.493

9.  Cell Cycle-Dependent Mechanisms Underlie Vincristine-Induced Death of Primary Acute Lymphoblastic Leukemia Cells.

Authors:  Anisha Kothari; Walter N Hittelman; Timothy C Chambers
Journal:  Cancer Res       Date:  2016-05-06       Impact factor: 12.701

10.  Aneuploidy increases resistance to chemotherapeutics by antagonizing cell division.

Authors:  John Michael Replogle; Wen Zhou; Adrianna E Amaro; James M McFarland; Mariana Villalobos-Ortiz; Jeremy Ryan; Anthony Letai; Omer Yilmaz; Jason Sheltzer; Stephen J Lippard; Uri Ben-David; Angelika Amon
Journal:  Proc Natl Acad Sci U S A       Date:  2020-11-17       Impact factor: 11.205
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