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A highly selective telomerase inhibitor limiting human cancer cell proliferation
Author(s) -
Damm Klaus,
Hemmann Ulrike,
GarinChesa Pilar,
Hauel Norbert,
Kauffmann Iris,
Priepke Henning,
Niestroj Claudia,
Daiber Christine,
Enenkel Barbara,
Guilliard Bernd,
Lauritsch Ines,
Müller Elfriede,
Pascolo Emanuelle,
Sauter Gabriele,
Pantic Milena,
Martens Uwe M.,
Wenz Christian,
Lingner Joachim,
Kraut Norbert,
Rettig Wolfgang J.,
Schnapp Andreas
Publication year - 2001
Publication title -
the embo journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 7.484
H-Index - 392
eISSN - 1460-2075
pISSN - 0261-4189
DOI - 10.1093/emboj/20.24.6958
Subject(s) - telomerase , telomere , biology , telomerase reverse transcriptase , ribonucleoprotein , mitosis , cancer research , cancer cell , somatic cell , cancer , cell growth , in vivo , senescence , cell division , microbiology and biotechnology , cell , genetics , dna , gene , rna
Telomerase, the ribonucleoprotein enzyme maintaining the telomeres of eukaryotic chromosomes, is active in most human cancers and in germline cells but, with few exceptions, not in normal human somatic tissues. Telomere maintenance is essential to the replicative potential of malignant cells and the inhibition of telomerase can lead to telomere shortening and cessation of unrestrained proliferation. We describe novel chemical compounds which selectively inhibit telomerase in vitro and in vivo . Treatment of cancer cells with these inhibitors leads to progressive telomere shortening, with no acute cytotoxicity, but a proliferation arrest after a characteristic lag period with hallmarks of senescence, including morphological, mitotic and chromosomal aberrations and altered patterns of gene expression. Telomerase inhibition and telomere shortening also result in a marked reduction of the tumorigenic potential of drug‐treated tumour cells in a mouse xenograft model. This model was also used to demonstrate in vivo efficacy with no adverse side effects and uncomplicated oral administration of the inhibitor. These findings indicate that potent and selective, non‐nucleosidic telomerase inhibitors can be designed as novel cancer treatment modalities.

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