Combined experience of six independent laboratories attempting to create an Ewing sarcoma mouse model

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Abstract

Ewing sarcoma (ES) involves a tumor-specific chromosomal translocation that produces the EWS-FLI1 protein, which is required for the growth of ES cells both in vitro and in vivo. However, an EWS-FLI1-driven transgenic mouse model is not currently available. Here, we present data from six independent laboratories seeking an alternative approach to express EWS-FLI1 in different murine tissues. We used the Runx2, Col1a2.3, Col1a3.6, Prx1, CAG, Nse, NEFL, Dermo1, P0, Sox9 and Osterix promoters to target EWS-FLI1 or Cre expression. Additional approaches included the induction of an endogenous chromosomal translocation, in utero knock-in, and the injection of Cre-expressing adenovirus to induce EWS-FLI1 expression locally in multiple lineages. Most models resulted in embryonic lethality or developmental defects. EWS-FLI1-induced apoptosis, promoter leakiness, the lack of potential cofactors, and the difficulty of expressing EWS-FLI1 in specific sites were considered the primary reasons for the failed attempts to create a transgenic mouse model of ES.

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Most cited references 87

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Gene fusion with an ETS DNA-binding domain caused by chromosome translocation in human tumours.

O Delattre, J Zucman, B Plougastel … (1992)

Ewing's sarcoma and related subtypes of primitive neuroectodermal tumours share a recurrent and specific t(11;22) (q24;q12) chromosome translocation, the breakpoints of which have recently been cloned. Phylogenetically conserved restriction fragments in the vicinity of EWSR1 and EWSR2, the genomic regions where the breakpoints of chromosome 22 and chromosome 11 are, respectively, have allowed identification of transcribed sequences from these regions and has indicated that a hybrid transcript might be generated by the translocation. Here we use these fragments to screen human complementary DNA libraries to show that the translocation alters the open reading frame of an expressed gene on chromosome 22 gene by substituting a sequence encoding a putative RNA-binding domain for that of the DNA-binding domain of the human homologue of murine Fli-1.

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In Vivo Imaging Reveals Extracellular Vesicle-Mediated Phenocopying of Metastatic Behavior

Anoek Zomer, Carrie Maynard, Frederik Johannes Verweij … (2015)

Summary Most cancer cells release heterogeneous populations of extracellular vesicles (EVs) containing proteins, lipids, and nucleic acids. In vitro experiments showed that EV uptake can lead to transfer of functional mRNA and altered cellular behavior. However, similar in vivo experiments remain challenging because cells that take up EVs cannot be discriminated from non-EV-receiving cells. Here, we used the Cre-LoxP system to directly identify tumor cells that take up EVs in vivo. We show that EVs released by malignant tumor cells are taken up by less malignant tumor cells located within the same and within distant tumors and that these EVs carry mRNAs involved in migration and metastasis. By intravital imaging, we show that the less malignant tumor cells that take up EVs display enhanced migratory behavior and metastatic capacity. We postulate that tumor cells locally and systemically share molecules carried by EVs in vivo and that this affects cellular behavior.

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A cre-transgenic mouse strain for the ubiquitous deletion of loxP-flanked gene segments including deletion in germ cells.

F Schwenk, U Baron, K Rajewsky (1995)

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Journal

Journal ID (nlm-ta): Oncotarget

Journal ID (iso-abbrev): Oncotarget

Journal ID (publisher-id): Oncotarget

Journal ID (publisher-id): ImpactJ

Title: Oncotarget

Publisher: Impact Journals LLC

ISSN (Electronic): 1949-2553

Publication date Collection: 23 May 2017

Publication date (Electronic): 15 May 2016

Volume: 8

Issue: 21

Pages: 34141-34163

Affiliations

¹ Department of Oncology, Georgetown University Medical Center, Washington, DC, United States of America

² Genetics and Biology of Cancers Unit, Institut Curie Research Center, PSL Research University, Île-de-France, Paris, France

³ INSERM U830, Institut Curie Research Center, Île-de-France, Paris, France

⁴ Ludwig Boltzmann Institute for Cancer Research, Vienna, Austria

⁵ Division of Carcinogenesis, The Cancer Institute, Japanese Foundation for Cancer Research, Tokyo, Japan

⁶ Division of Hematology and Oncology, Department of Pediatrics, Stanford University School of Medicine, Stanford, CA, United States of America

⁷ Department of Pathology and Laboratory Medicine, Tulane University School of Medicine, New Orleans, LA, United States of America

⁸ Department of Medicine, and Genetics and Genome Sciences, University of Connecticut Health Science Center, Farmington, CT, United States of America

⁹ Institute of Comparative Molecular Endocrinology (CME), University of Ulm, Ulm, Germany

¹⁰ Clinical Institute of Pathology, Medical University of Vienna, Vienna, Austria

¹¹ Institute of Animal Breeding and Genetics, University of Veterinary Medicine, Vienna, Austria

¹² Department of Pediatrics, Medical University of Vienna, Vienna, Austria

¹³ Children´s Cancer Research Institute, St. Anna Kinderkrebsforschung, Vienna, Austria

¹⁴ Unité de génétique somatique, Institut Curie, Île-de-France, Paris, France

¹⁵ Department of Pathology of Laboratory Animals (UPLA), University of Veterinary Medicine, Vienna, Austria

¹⁶ Medical University of Vienna, Vienna, Austria

Author notes

Correspondence to: Aykut Üren, au26@ 123456georgetown.edu

Sean Lee, slee30@ 123456tulane.edu

E. Alejandro Sweet-Cordero, ascor@ 123456stanford.edu

Takuro Nakamura, takuro-ind@ 123456umin.net

Richard Moriggl, Richard.Moriggl@ 123456lbicr.lbg.ac.at

Olivier Delattre, Olivier.Delattre@ 123456curie.fr

Article

Publisher ID: 9388

DOI: 10.18632/oncotarget.9388

PMC ID: 5470957

PubMed ID: 27191748

SO-VID: 8c6bed22-ca4c-419e-9cfb-1dabcf09ca10

License:

This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC-BY), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

History

Date received : 9 November 2015

Date accepted : 5 May 2016

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Combined experience of six independent laboratories attempting to create an Ewing sarcoma mouse model

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Karger: Oncology

Most cited references 87

Gene fusion with an ETS DNA-binding domain caused by chromosome translocation in human tumours.

In Vivo Imaging Reveals Extracellular Vesicle-Mediated Phenocopying of Metastatic Behavior

A cre-transgenic mouse strain for the ubiquitous deletion of loxP-flanked gene segments including deletion in germ cells.

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