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Inducing Chromosome Instability in Cancer Cells

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Inducing Chromosome Instability in Cancer Cells

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Oncotarget published "Terpyridine platinum compounds induce telomere dysfunction and chromosome instability in cancer cells" which reported that this assay is based on the use of two isogenic HT1080 cell lines, one carrying a linear HAC and the other carrying a circular HAC.

Disruption of telomeres in response to drug treatment results in specific destabilization of the linear HAC.

In this study, they used the dual-HAC assay for the analysis of the platinum-derived G4 ligand Pt-tpy and five of its derivatives: Pt-cpym, Pt-vpym, Pt-ttpy, Pt -tpy, and Pt-BisQ. Their analysis revealed four compounds, Pt-tpy, Pt-ttpy, Pt-vpym and Pt-cpym, that induce a specific loss of a linear but not a circular HAC.

Increased CIN after treatment by these compounds correlates with the induction of double-stranded breaks predominantly localized at telomeres and reflecting telomere-associated DNA damage.

These terpyridine platinum-derived G4 ligands are promising compounds for cancer treatment.

Dr. Vladimir Larionov and Dr. Natalay Kouprina both from The National Institutes of Health said, "Normal human somatic cells contain 46 chromosomes."

Telomerase/telomere-targeting therapy is considered to be a potentially promising approach for cancer treatment because even transient telomere dysfunction can induce chromosomal instability in human cells.

The enzyme telomerase elongates telomeres and maintains a telomere length equilibrium that prevents telomeres from becoming critically short.

In particular, formation of G4s at telomeres could impede telomerase recognition and inhibit telomere elongation leading to telomere shortening.

Thus, telomeres are promising targets for discovery of ligands that stabilize G4s at telomeres, thereby perturbing telomere maintenance and leading to genomic instability.

The authors found that treatment of cancer cells with either Pt-cpym, Pt-vpym, Pt-ttpy or Pt-tpy induces telomere dysfunction leading to high levels of chromosome instability.

Reference: Petrov N, Lee H-S, Liskovykh M, et al. Terpyridine platinum compounds induce telomere dysfunction and chromosome instability in cancer cells. Oncotarget. 2021;12(15):1444-1456. doi: 10.18632/oncotarget.28020

This article has been republished from the following materials. Note: material may have been edited for length and content. For further information, please contact the cited source.

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