αB-Crystallin is a novel oncoprotein that predicts poor clinical outcome in breast cancer
Jose V. Moyano, … , Charles M. Perou, Vincent L. Cryns
Jose V. Moyano, … , Charles M. Perou, Vincent L. Cryns
Published January 4, 2006
Citation Information: J Clin Invest. 2006;116(1):261-270. https://doi.org/10.1172/JCI25888.
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Research Article Oncology

αB-Crystallin is a novel oncoprotein that predicts poor clinical outcome in breast cancer

Abstract

Recent gene profiling studies have identified a new breast cancer subtype, the basal-like group, which expresses genes characteristic of basal epithelial cells and is associated with poor clinical outcomes. However, the genes responsible for the aggressive behavior observed in this group are largely unknown. Here we report that the small heat shock protein α-basic–crystallin (αB-crystallin) was commonly expressed in basal-like tumors and predicted poor survival in breast cancer patients independently of other prognostic markers. We also demonstrate that overexpression of αB-crystallin transformed immortalized human mammary epithelial cells (MECs). In 3D basement membrane culture, αB-crystallin overexpression induced luminal filling and other neoplastic-like changes in mammary acini, while silencing αB-crystallin by RNA interference inhibited these abnormalities. αB-Crystallin overexpression also induced EGF- and anchorage-independent growth, increased cell migration and invasion, and constitutively activated the MAPK kinase/ERK (MEK/ERK) pathway. Moreover, the transformed phenotype conferred by αB-crystallin was suppressed by MEK inhibitors. In addition, immortalized human MECs overexpressing αB-crystallin formed invasive mammary carcinomas in nude mice that recapitulated aspects of human basal-like breast tumors. Collectively, our results indicate that αB-crystallin is a novel oncoprotein expressed in basal-like breast carcinomas that independently predicts shorter survival. Our data also implicate the MEK/ERK pathway as a potential therapeutic target for these tumors.

Authors

Jose V. Moyano, Joseph R. Evans, Feng Chen, Meiling Lu, Michael E. Werner, Fruma Yehiely, Leslie K. Diaz, Dmitry Turbin, Gamze Karaca, Elizabeth Wiley, Torsten O. Nielsen, Charles M. Perou, Vincent L. Cryns

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Figure 4

Overexpression of αB-crystallin in MECs confers EGF- and anchorage-independent growth and MEK-dependent enhanced migration and invasiveness.

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Overexpression of αB-crystallin in MECs confers EGF- and anchorage-indep...
(A) Growth of parental MCF-10A cells and MCF-10A pools in low serum (without added EGF) as determined using an MTS viability assay. The results are expressed as fold change in viable cells relative to t = 0. (B) Representative soft agar colony formation of parental MCF-10A cells and MCF-10A pools: entire well (upper panels) and higher magnification (lower panels). (C) Representative micrographs of the wound closure assay of MCF-10A pools treated with vehicle, 10 μM SB 203580 or 10 μM PD 98059 for 18 hours. (D) Percentage wound closure. (E) MCF-10A pools were placed in a transwell invasion chamber in the presence of vehicle, SB 203580, or PD 98059, and the number of cells invading through Matrigel-occluded pores was determined at 24 hours. The number of invading cells is expressed as fold change from that observed in untreated MCF-10A–pLXSN cells. In AE, data are mean ± SD (n = 3). ***P < 0.001. Scale bars: 500 μm (B); 100 μm (C).