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A rationally designed genotoxin that selectively destroys estrogen receptor-positive breast cancer cells.

ABSTRACT: We describe a novel strategy to increase the selective toxicity of genotoxic compounds. The strategy involves the synthesis of bifunctional molecules capable of forming DNA adducts that have high affinity for specific proteins in target cells. It is proposed that the association of such proteins with damaged sites in DNA can compromise protein function and/or DNA repair resulting in increased toxicity. We describe the synthesis of a bifunctional compound consisting of an aniline mustard linked to the 7alpha position of estradiol. This novel compound can form covalent DNA adducts that have high affinity for the estrogen receptor. Breast cancer cells that express high levels of the estrogen receptor showed increased sensitivity to the cytotoxic effects of the new compound.

SUBMITTER: Mitra K 

PROVIDER: S-EPMC4095803 | biostudies-literature | 2002 Mar

REPOSITORIES: biostudies-literature

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A rationally designed genotoxin that selectively destroys estrogen receptor-positive breast cancer cells.

Mitra Kaushik K   Marquis John C JC   Hillier Shawn M SM   Rye Peter T PT   Zayas Beatriz B   Lee Annie S AS   Essigmann John M JM   Croy Robert G RG  

Journal of the American Chemical Society 20020301 9

We describe a novel strategy to increase the selective toxicity of genotoxic compounds. The strategy involves the synthesis of bifunctional molecules capable of forming DNA adducts that have high affinity for specific proteins in target cells. It is proposed that the association of such proteins with damaged sites in DNA can compromise protein function and/or DNA repair resulting in increased toxicity. We describe the synthesis of a bifunctional compound consisting of an aniline mustard linked t  ...[more]

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