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Radiation-associated breast tumors display a distinct gene expression profile.

Annegien Broeks ,
Linde M Braaf ,
Lodewyk F A Wessels ,
Marc van de Vijver ,
Marie L De Bruin ,
Marilyn Stovall ,
Nicola S Russell ,
Flora E van Leeuwen ,
Laura J Van 't Veer

Abstract

METHODS AND MATERIALS

In this study we used gene expression profiling technology to assess gene expression changes in radiation-associated breast tumors compared with a set of control breast tumors of women unexposed to radiation, diagnosed at the same age. RNA was obtained from fresh frozen tissue samples from 22 patients who developed breast cancer after Hodgkin's lymphoma (BfHL) and from 20 control breast tumors.

CONCLUSION

These results indicate that radiation-associated tumors are different from other breast tumors on the basis of their expression profile and that they are mainly of one specific cause that is characterized by high proliferation and a more aggressive tumor type.

RESULTS

Unsupervised hierarchical clustering of the profile data resulted in a clustering of the radiation-associated tumors separate from the control tumors (p < 0.001). Using a supervised class prediction tool, a nearest centroid classifier of 198 probes was identified. The BfHL tumors were often of the intrinsic basal breast tumor subtype, and they showed a chromosomal instability profile and a higher expression of the proliferation marker Ki-67.

PURPOSE

Women who received irradiation for Hodgkin's lymphoma have a strong increased risk for developing breast cancer. Approximately 90% of the breast cancers in these patients can be attributed to their radiation treatment, rendering such series extremely useful to determine whether a common radiation-associated cause underlies the carcinogenic process.

More about this publication

International journal of radiation oncology, biology, physics

Volume 76
Issue nr. 2
Pages 540-7
Publication date 01-02-2010

Full text links

Publisher website (DOI) 10.1016/j.ijrobp.2009.09.004
Europe PubMed Central 20117289
Pubmed 20117289

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