A g-quadruplex stabilizer induces m-phase cell cycle arrest

A g-quadruplex stabilizer induces m-phase cell cycle arrest. Tsai, Y., Qi, H., Lin, C., Lin, R., Kerrigan, J. E, Rzuczek, S. G, LaVoie, E. J, Rice, J. E, Pilch, D. S, Lyu, Y. L., & Liu, L. F Journal of Biological Chemistry, 284(34):22535–22543 ST – A G–quadruplex Stabilizer Induce, 2009.

Paper doi abstract bibtex

G-quadruplex stabilizers such as telomestatin and HXDV bind with exquisite specificity to G-quadruplexes, but not to triplex, duplex, or single-stranded DNAs. Studies have suggested that the antiproliferative and possibly anti-tumor activities of these compounds are linked to their inhibitory effect on telomerase and/or telomere function. In the current studies, we show that HXDV, a synthetic analog of telomestatin, exhibits antiproliferative activity against both telomerase-positive and -negative cells and induces robust apoptosis within 16 h of treatment, suggesting a mode of action independent of telomerase. HXDV was also shown to inhibit cell cycle progression causing M-phase cell cycle arrest, as evidenced by accumulation of cells with 4 N DNA content, increased mitotic index, separated centrosomes, elevated histone H3 phosphorylation at Ser-10 (an M-phase marker), and defective chromosome alignment and spindle fiber assembly (revealed by time-lapse microscopy). The M-phase arrest caused by HXDV paralleled with reduction in the expression level of the major M-phase checkpoint regulator Aurora A. All these cellular effects appear to depend on the G-quadruplex binding activity of HXDV as its non-G-quadruplex binding analog, TXTLeu, is completely devoid of all these effects. In the aggregate, our results suggest that HXDV, which exhibits anti-proliferative and apoptotic activities, is also a novel M-phase blocker, with a mode of action dependent on its G-quadruplex binding activity.

@article{Tsai2009,
	title = {A g-quadruplex stabilizer induces m-phase cell cycle arrest},
	volume = {284},
	url = {http://www.jbc.org/cgi/content/abstract/284/34/22535},
	doi = {10.1074/jbc.m109.020230},
	abstract = {G-quadruplex stabilizers such as telomestatin and HXDV bind with exquisite specificity to G-quadruplexes, but not to triplex, duplex, or single-stranded DNAs. Studies have suggested that the antiproliferative and possibly anti-tumor activities of these compounds are linked to their inhibitory effect on telomerase and/or telomere function. In the current studies, we show that HXDV, a synthetic analog of telomestatin, exhibits antiproliferative activity against both telomerase-positive and -negative cells and induces robust apoptosis within 16 h of treatment, suggesting a mode of action independent of telomerase. HXDV was also shown to inhibit cell cycle progression causing M-phase cell cycle arrest, as evidenced by accumulation of cells with 4 N DNA content, increased mitotic index, separated centrosomes, elevated histone H3 phosphorylation at Ser-10 (an M-phase marker), and defective chromosome alignment and spindle fiber assembly (revealed by time-lapse microscopy). The M-phase arrest caused by HXDV paralleled with reduction in the expression level of the major M-phase checkpoint regulator Aurora A. All these cellular effects appear to depend on the G-quadruplex binding activity of HXDV as its non-G-quadruplex binding analog, TXTLeu, is completely devoid of all these effects. In the aggregate, our results suggest that HXDV, which exhibits anti-proliferative and apoptotic activities, is also a novel M-phase blocker, with a mode of action dependent on its G-quadruplex binding activity.},
	number = {34},
	journal = {Journal of Biological Chemistry},
	author = {Tsai, Yuan-Chin and Qi, Haiyan and Lin, Chao-Po and Lin, Ren-Kuo and Kerrigan, John E and Rzuczek, Suzanne G and LaVoie, Edmond J and Rice, Joseph E and Pilch, Daniel S and Lyu, Yi Lisa and Liu, Leroy F},
	year = {2009},
	keywords = {\#nosource},
	pages = {22535--22543 ST -- A G--quadruplex Stabilizer Induce},
}

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