J Bone Miner Res 16:1846–1853CrossRefPubMed”
“Background Telomeric DNA is GDC-0941 mouse protected and maintained at the ends of chromosomes by the action of the enzyme telomerase. Whilst the shortening of DNA telomeres during
repeated cell division is a natural part of the cellular ageing mechanism, one of the hallmarks of cancer is the expression of telomerase by cancer cells which allows them to maintain telomeric length and adopt immortal characteristics [1, 2]. Telomerase requires a single-stranded DNA primer as BIBW2992 manufacturer substrate for the addition of telomeric repeats (TTAGGG) [3], his terminal telomere G-rich single stranded tract, also called G-overhang, can fold into four-stranded G-quadruplex (G4) structures consisting of G-tetrads coordinated around a monovalent cation [4, 5]. G4 stabilization, deny access of telomerase to its substrate, representing a valid
tool for telomerase targeted approach in cancer https://www.selleckchem.com/products/lxh254.html therapy [6]. Nevertheless, for direct telomerase inhibition, a time-dependent response is observed, related to the basal length of the telomeres, due to the slow attrition of telomeres experienced after each cell division, thus limiting the efficacy of agents designed to inhibit telomerase alone [7–9]. The extremely rapid and potent cytotoxic effect triggered by G4 ligands interacting with telomeric DNA sequences (‘Telomere Targeting Agents’: TTAs) is explained by a dual mechanism of action. On one hand the inhibition of telomerase, Methamphetamine and, on the other hand, disruption of the shelterin complex, a nulcleo-protein complex which stabilises
and protects the ends of chromosomes from being recognized as double-strand breaks [7, 8]. The presence of G4 structures has been recently showed in non telomeric regions, as already hypothesized on the base of predictive studies [10]. In particular, G4 forming regions were already found in the promoter of several cancer related genes (c-myc, bcl2, hif1, hTERT), and for some of those genes, a transcriptional inhibitory function was attributed to these structures. Consequently, G4 targeting molecules could have additional extra-telomeric features, which could improve their potential as anti-cancer agents. The pentacyclic quinoacridinium salt RHPS4 (1: Figure 1) has many of the attributes of an ideal TTA. We have shown previously by NMR studies that the agent stacks above and below the G3 core of a (TTAGGGT)4 parallel-stranded quadruplex; [11] it binds with high efficiency to the h-Tel DNA sequence as measured by surface plasmon resonance [11], circular dichroism and ESI-MS [12, 13]; it is an active inhibitor of telomerase (IC50 0.33 μM) as revealed in a Trap assay [14] and disrupts the shelterin complex of the telomere with the liberation of the POT-1 protein [15].