Amplification of a 280-Kilobase Core Region at the ERBB2 Locus Leads to Activation of Two Hypothetical Proteins in Breast Cancer

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Amplification of a 280-Kilobase Core Region at the ERBB2 Locus Leads to Activation of Two Hypothetical Proteins in Breast Cancer

Päivikki Kauraniemi^*, Tuula Kuukasjärvi, Guido Sauter and Anne Kallioniemi^*

From the Laboratory of Cancer Genetics,^*Institute of Medical Technology, and the Department of Pathology,University of Tampere and Tampere University Hospital, Tampere, Finland; and the Institute of Pathology,University of Basel, Basel, Switzerland

Amplification of the ERBB2 oncogene at 17q12 is clinically themost relevant genetic aberration in breast cancer and severalstudies have linked ERBB2 activation to poor clinical outcome.The development of targeted antibody-based therapy for ERBB2-overexpressingtumors and the possible role of ERBB2 as a predictor of chemotherapytreatment response have further emphasized the essential roleof ERBB2 in breast cancer. Here, we performed a detailed characterizationof the molecular events occurring at the ERBB2 amplicon in primarybreast tumors. Analysis of the amplicon structure in 330 breasttumors by fluorescence in situ hybridization to a tissue microarrayrevealed a 280-kb common region of amplification that contains10 transcribed sequences, including eight known genes. The expressionlevels of these 10 transcripts were determined in 36 frozensamples of grade-matched ERBB2-amplified and -nonamplified (asdetermined by fluorescence in situ hybridization) primary breasttumors by using quantitativereal-time reverse transcriptase-polymerasechain reaction. A highly significant association between amplificationand expression levels was observed for six of these genes, includingERBB2 and two uncharacterized hypothetical proteins, MGC9753and MGC14832. These results support the recent findings on theinfluence of copy number on gene expression levels and highlightnovel genes that might contribute to the clinical behavior ofERBB2-amplified breast tumors.

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