Telomere Targeting Chimera Enables Targeted Destruction of Telomeric Repeat-Binding Factor Proteins.

Abstract

Telomeres are naturally shortened after each round of cell division in noncancerous normal cells, while the activation of telomerase activity to extend telomere in the cancer cell is essential for cell transformation. Therefore, telomeres are regarded as a potential anticancer target. In this study, we report the development of a nucleotide-based proteolysis-targeting chimera (PROTAC) designed to degrade TRF1/2 (telomeric repeat-binding factor 1/2), which are the key components of the shelterin complex (telosome) that regulates the telomere length by directly interacting with telomere DNA repeats. The prototype telomere-targeting chimeras (TeloTACs) efficiently degrade TRF1/2 in a VHL- and proteosome-dependent manner, resulting in the shortening of telomeres and suppressed cancer cell proliferation. Compared to the traditional receptor-based off-target therapy, TeloTACs have potential application in a broad spectrum of cancer cell lines due to their ability to selectively kill cancer cells that overexpress TRF1/2. In summary, TeloTACs provide a nucleotide-based degradation approach for shortening the telomere and inhibiting tumor cell growth, representing a promising avenue for cancer treatment.