Developing Novel Anticancer DNA-binding Drugs to Disrupt ETS-Mediated Transcription Associated with Breast Cancer: Use of the c-fos Serum Response Element as a Model System

Abstract

Disregulated transcription factor (TF)-mediated activation of gene expression can play a key role in oncogenesis, especially in breast cancer, preventing TF/DNA interactions using small molecule DNA-reactive agents may decrease oncogenic gene expression and potentially halt cancer development. Our goal is to improve DNA-binding drugs' abilities to inhibit specific TF/DNA interactions using the human c-fos promoter's serum response element (SRE) as a target. In an effort to improve drug effectiveness, the novel minor groove-binding fluorescent microgonotropens (FMGTs) were developed. These A/T selective bisbenzimidazole-based agents have polyamine tails that contact DNA's phosphodiester backbone, allowing them to bind with very high affinity. We explored the potential of these agents to inhibit TF/DNA complex formation in a series of increasingly complex assays in the c-fos model and assessed whether their ability to contact both grooves makes them more effective than classical minor groove-binding drugs. Analyzing these agents using a well-defined gene regulatory element has provided insight into the relationship between their chemical structure and biological activities. Notably, our studies revealed that one agent, L2, was the only FMGT to inhibit endogenous c-fos gene expression. L2 is therefore a promising lead candidate for future drug design studies.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 2002

Accession Number

ADA405260

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