AI Article Synopsis
- The study aimed to assess the effects of a new compound, RHPS4, on human melanoma cells with long telomeres and investigate how it interacts with telomere length and dysfunction.
- Treatment with RHPS4 led to dose-dependent inhibition of cell growth and an accumulation of cells in the S-G(2)/M phases, ultimately resulting in apoptosis and signs of cellular senescence, such as increased cell size and changes in cytoplasmic appearance.
- The findings indicate that RHPS4's effects are not due to telomere shortening, but rather to inducing dysfunction at the telomeres, suggesting it can alter telomere capping in a manner that does not rely on the telomere length itself.
Article Abstract
This study had two goals: 1) to evaluate the biological effect of the novel pentacyclic acridine 3,11-difluoro-6,8,13-trimethyl-8H-quino[4,3,2-kl]acridinium methosulfate (RHPS4) on human melanoma lines possessing long telomeres, and 2) to elucidate the relationship between G-quadruplex-based telomerase inhibitor-induced cellular effects and telomere length/dysfunction. The cellular pharmacological effects of RHPS4 have been evaluated by treating melanoma lines with increasing concentrations of RHPS4. A dose-dependent inhibition of cell proliferation was observed in all the lines during short-term treatment. Flow cytometric analysis demonstrated that RHPS4 induced a dose-dependent accumulation of cells in the S-G(2)/M phase of cell cycle. The RHPS4-induced cell cycle alteration was irreversible even at low doses, and the cells died from apoptosis. At high RHPS4 concentration, apoptosis was accompanied by the induction of a senescence phenotype: large cell size, vacuolated cytoplasm, and beta-galactosidase activity. The short-term biological activity of RHPS4 was not caused by telomere shortening, but it was associated with telomere dysfunction, in terms of presence of telomeric fusions, polynucleated cells, and typical images of telophase bridge. In conclusion, our results demonstrate that the G-quadruplex ligand RHPS4 can function in a telomere length-independent manner through its ability to cause telomere-capping alteration.
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| http://dx.doi.org/10.1124/mol.104.001537 | DOI Listing |
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