Prevention of Breast Cell Transformation by Blockade of the AP-l Transcription Factor (95 Breast)

Abstract

We are investigating the role of AP- 1 in controlling breast cell growth and transformation. We proposed to determine the role of the AP- 1 family of transcription factors in mediating peptide growth factor-induced proliferation and oncogene-induced transformation of breast cells. Previous results demonstrated that Al)- 1 complexes are activated by peptide and steroid growth factors in normal and malignant breast cells, and that normal breast cells express higher levels of Al)- I proteins and activity than do breast cancer cells. We also previously showed that normal and immortal cells are more dependent on AP-1 for their growth than are most breast cancer cells. Over the last year, we determined whether AP-1 activation is required to transduce growth factor-induced signals in breast cancer cells. To perform these studies, we isolated MCF7 and MDA MB 435 clones that express a dominant-negative cJun mutant (TAM-67) under the control of an inducible promoter. These studies demonstrated that MCF7 cells, but not MDA MB 435 cells, depend on Al)- 1 for growth in serum. We also present results showing that inhibition of Al>- 1 completely blocked MCF7 proliferation induced by lGF- 1 and EGF, yet only partially inhibited growth induced by estrogen. These results demonstrate that the mitogenic pathways in MCF7 cells activated by serum, estrogen, IGF- 1, and EGF depend on Al)- 1 to transduce a proliferative signal, and that estrogen partially overcomes the growth suppressive effect of Al)- 1 blockade. These results suggest that Al)- 1 is a promising target of future cancer therapeutic and preventive agents since blocking this critical transcription factor suppresses proliferation induced by multiple growth factors.

Document Details

Document Type

Technical Report

Publication Date

Sep 01, 1999

Accession Number

ADA384090

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