The retinoblastoma tumor suppressor modifies the therapeutic response of breast cancer
Emily E. Bosco, … , Scott W. Lowe, Erik S. Knudsen
Emily E. Bosco, … , Scott W. Lowe, Erik S. Knudsen
Published January 2, 2007
Citation Information: J Clin Invest. 2007;117(1):218-228. https://doi.org/10.1172/JCI28803.
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Research Article Oncology

The retinoblastoma tumor suppressor modifies the therapeutic response of breast cancer

Abstract

The retinoblastoma tumor suppressor (RB) protein is functionally inactivated in the majority of human cancers and is aberrant in one-third of all breast cancers. RB regulates G1/S-phase cell-cycle progression and is a critical mediator of antiproliferative signaling. Here the specific impact of RB deficiency on E2F-regulated gene expression, tumorigenic proliferation, and the response to 2 distinct lines of therapy was investigated in breast cancer cells. RB knockdown resulted in RB/E2F target gene deregulation and accelerated tumorigenic proliferation, thereby demonstrating that even in the context of a complex tumor cell genome, RB status exerts significant control over proliferation. Furthermore, the RB deficiency compromised the short-term cell-cycle inhibition following cisplatin, ionizing radiation, and antiestrogen therapy. In the context of DNA-damaging agents, this bypass resulted in increased sensitivity to these agents in cell culture and xenograft models. In contrast, the bypass of antiestrogen signaling resulted in continued proliferation and xenograft tumor growth in the presence of tamoxifen. These effects of aberrations in RB function were recapitulated by ectopic E2F expression, indicating that control of downstream target genes was an important determinant of the observed responses. Specific analyses of an RB gene expression signature in 60 human patients indicated that deregulation of this pathway was associated with early recurrence following tamoxifen monotherapy. Thus, because the RB pathway is a critical determinant of tumorigenic proliferation and differential therapeutic response, it may represent a critical basis for directing therapy in the treatment of breast cancer.

Authors

Emily E. Bosco, Ying Wang, Huan Xu, Jack T. Zilfou, Karen E. Knudsen, Bruce J. Aronow, Scott W. Lowe, Erik S. Knudsen

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Figure 6

RB/E2F downstream target deregulation correlates with poor prognosis in human breast cancers treated with Tam monotherapy.

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RB/E2F downstream target deregulation correlates with poor prognosis in ...
(A) Gene expression data from 60 ER-positive human breast tumors that were both micro- and macrodissected were analyzed for RB/E2F target gene expression using GeneSpring. The expression patterns of 59 known RB/E2F target genes and the expression levels of Rb, p16, cyclin D1, and cyclin E are displayed in a condition tree for each of the 2 tissue samples from each patient (120 samples). The average RB/E2F target gene expression levels of all 59 genes were categorized into 3 groups: low, medium, and high. Three HER2/neu-positive tumors (a, b, and c) were present in this tumor set. (B) The RB/E2F target gene expression levels in each group represented in C were averaged and displayed as a box-and-whisker plot. A 2-tailed Student’s t test assuming unequal variances was utilized to determine significance (P = 7.2 × 10–12 low/medium; P = 1.3 × 10–14 medium/high). (C) The survival data for each of the 60 patients from the low/medium and high gene expression groups represented in C was compiled into a disease-free survival curve. Statistical tests were performed as described for B.