Telomeric DNA represents a novel target for the development of anticancer drugs. By application of a catalytic metallodrug strategy, a copper–acridine–ATCUN complex (CuGGHK-Acr) has been designed that targets G-quadruplex telomeric DNA. Both fluorescence solution assays and gel sequencing demonstrate the CuGGHK-Acr catalyst to selectively bind and cleave the G-quadruplex telomere sequence. The cleavage pathway has been mapped by matrix assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF MS) experiments. CuGGHK-Acr promotes significant inhibition of cancer cell proliferation and shortening of telomere length. Both senescence and apoptosis are induced in the breast cancer cell line MCF7.
Telomeric DNA represents a novel target for the development of anticancer drugs. By application of a catalytic metallodrug strategy, a copper–acridine–ATCUN complex (CuGGHK‐Acr) has been designed that targets G‐quadruplex telomeric DNA. Both fluorescence solution assays and gel sequencing demonstrate the CuGGHK‐Acr catalyst to selectively bind and cleave the G‐quadruplex telomere sequence. The cleavage pathway has been mapped by matrix assisted laser desorption ionization time‐of‐flight mass spectrometry (MALDI‐TOF MS) experiments. CuGGHK‐Acr promotes significant inhibition of cancer cell proliferation and shortening of telomere length. Both senescence and apoptosis are induced in the breast cancer cell line MCF7.
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