A Novel Strategy to Isolate Invasion-Inducing Proteins From Human Breast Tumors

Abstract

Retroviral-based expression libraries have been developed from breast tumor cells, and then screened for cDNAs whose expression confers an invasive phenotype on non-invasive breast tumor cells. Four independent cDNAs have been recovered and restested in these- screens (DAP-l, LIPE, HSPA5, ABLIM). The Dap-l cDNA was orientated in the antisense and is by far the most invasive of the four. When tested in other cell types, only the Dap-l cDNA exhibited transforming properties. Since Dap-l has been attributed tumor suppressor properties in other biological systems, it was selected for a more detailed analysis. Anti-sense expression of DAP-l was associated with activation of the small GTPase RhoA in NIH 3T3 cells, but-downregulation of RhoA in MCF-7 cells. No effects were noted for Raci or Cdc42, or when DAP-l was expressed in the sense orientation. Analysis of the actin cytoskeleton of MCF-7 cells in which DAP-l is suppressed revealed a phenotype that is consistent with loss of RhoA function, and the motile phenotype could be suppressed by expression of activated RhoA. To summarize, we have identified DAP-l as a tumor suppressor in breast cancer cells that can regulate motility and invasion through regulation of the small GTPase RhoA.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 2003

Accession Number

ADA424712

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