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Synthesis and growth-inhibitory activities of imidazo[5,1-d]-1,2,3,5-tetrazine-8-carboxamides related to the anti-tumour drug temozolomide, with appended silicon, benzyl and heteromethyl groups at the 3-positionCousin, D., Hummersone, M.G., Bradshaw, T.D., Zhang, J., Moody, C.J., Foreiter, M.B., Summers, H.S., Lewis, W., Wheelhouse, Richard T., Stevens, M.F.G. 19 January 2018 (has links)
Yes / A series of 3-(benzyl-substituted)-imidazo[5,1-d]-1,2,3,5-tetrazines (13) and related derivatives with 3-heteromethyl groups has been synthesised and screened for growth-inhibitory activity in vitro against two pairs of glioma cell lines with temozolomide-sensitive and -resistant phenotypes dependent on the absence/presence of the DNA repair protein O6-methylguanine-DNA methyltransferase (MGMT). In general the compounds had low inhibitory activity with GI50 values > 50 µM against both sets of cell lines. Two silicon-containing derivatives, the TMS-methylimidazotetrazine (9) and the SEM-analogue (10), showed interesting differences: compound (9) had a profile very similar to that of temozolomide with the MGMT+ cell lines being 5 to 10-fold more resistant than MGMT– isogenic partners; the SEM-substituted compound (10) showed potency across all cell lines irrespective of their MGMT status.
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Exploiting Genetic Vulnerabilities to Overcome Treatment Resistance in Adult GliomasKoncar, Robert F. 16 June 2017 (has links)
No description available.
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Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma RegrowthRamirez, Y.P., Mladek, A.C., Phillips, Roger M., Gynther, M., Rautio, J., Ross, A.H., Wheelhouse, Richard T., Sakaria, J.N. 18 October 2014 (has links)
Yes / The cellular responses to two new temozolomide (TMZ) analogues, DP68 and DP86, acting against glioblastoma multiforme (GBM) cell lines and primary culture models are reported. Dose–response analysis of cultured GBM cells revealed that DP68 is more potent than DP86 and TMZ and that DP68 was effective even in cell lines resistant to TMZ. On the basis of a serial neurosphere assay, DP68 inhibits repopulation of these cultures at low concentrations. The efficacy of these compounds was independent of MGMT and MMR functions. DP68-induced interstrand DNA cross-links were demonstrated with H2O2-treated cells. Furthermore, DP68 induced a distinct cell–cycle arrest with accumulation of cells in S phase that is not observed for TMZ. Consistent with this biologic response, DP68 induces a strong DNA damage response, including phosphorylation of ATM, Chk1 and Chk2 kinases, KAP1, and histone variant H2AX. Suppression of FANCD2 expression or ATR expression/kinase activity enhanced antiglioblastoma effects of DP68. Initial pharmacokinetic analysis revealed rapid elimination of these drugs from serum. Collectively, these data demonstrate that DP68 is a novel and potent antiglioblastoma compound that circumvents TMZ resistance, likely as a result of its independence from MGMT and mismatch repair and its capacity to cross-link strands of DNA. / The full-text of this article was released for public view at the end of the publisher embargo on 2 Feb 2016.
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Identification and Validation of ERK5 as a DNA Damage Modulating Drug Target in GlioblastomaCarmell, N., Rominiyi, O., Myers, K.N., McGarrity-Cottrell, C., Vanderlinden, A., Lad, N., Perroux-David, E., El-Khamisy, Sherif, Fernando, M., Finegan, K.G., Brown, S., Collis, S.J. 01 November 2023 (has links)
Yes / Brain tumours kill more children and adults under 40 than any other cancer, with approximately half of primary brain tumours being diagnosed as high-grade malignancies known as glioblastomas. Despite de-bulking surgery combined with chemo-/radiotherapy regimens, the mean survival for these patients is only around 15 months, with less than 10% surviving over 5 years. This dismal prognosis highlights the urgent need to develop novel agents to improve the treatment of these tumours. To address this need, we carried out a human kinome siRNA screen to identify potential drug targets that augment the effectiveness of temozolomide (TMZ)-the standard-of-care chemotherapeutic agent used to treat glioblastoma. From this we identified ERK5/MAPK7, which we subsequently validated using a range of siRNA and small molecule inhibitors within a panel of glioma cells. Mechanistically, we find that ERK5 promotes efficient repair of TMZ-induced DNA lesions to confer cell survival and clonogenic capacity. Finally, using several glioblastoma patient cohorts we provide target validation data for ERK5 as a novel drug target, revealing that heightened ERK5 expression at both the mRNA and protein level is associated with increased tumour grade and poorer patient survival. Collectively, these findings provide a foundation to develop clinically effective ERK5 targeting strategies in glioblastomas and establish much-needed enhancement of the therapeutic repertoire used to treat this currently incurable disease.
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Effects of Anti-tumor Drugs on OC2 Human Oral Cancer CellsSu, Hsing-Hao 03 September 2008 (has links)
The present study explored the effect of three anti-tumor drugs (cisplatin, fluorouracil, and temozolomide) on viability and cytosolic free Ca2+ concentrations ([Ca2+]i) in OC2 human oral cancer cells. The effect of cisplatin related mitogen-activated protein kinases (MAPKs) phosphorylation was also examined. Cisplatin at concentration of 25-150 £gM decreased viability in a concentration-dependent manner, and so did fluorouracil (50-1000 £gM) and temozolomide (50-600 £gM). The three anti-tumor drugs all failed to induce a [Ca2+]i increase; thus it seemed that these drugs induced cell death via Ca2+-independent pathways. Immunoblotting showed that OC2 cells have background phospho-ERK, phospho-JNK and phospho-p38 MAPKs. It was found that cisplatin influenced the phosphorylation of ERK, JNK and p38 MAPKs at different time points.
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Development of ESI-LC-MS Method for Drug AnalysisYacoub, Kimberly 20 April 2018 (has links)
No description available.
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Generation, Characterization, Standardization and Utility of a Zebrafish Model of Glioblastoma.Welker, Alessandra M., Welker 22 November 2016 (has links)
No description available.
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The Medicinal Chemistry of Imidazotetrazine ProdrugsMoody, Catherine L., Wheelhouse, Richard T. 18 June 2014 (has links)
Yes / Temozolomide (TMZ) is the standard first line treatment for malignant glioma, reaching “blockbuster” status in 2010, yet it remains the only drug in its class. The main constraints on the clinical effectiveness of TMZ therapy are its requirement for active DNA mismatch repair (MMR) proteins for activity, and inherent resistance through O6-methyl guanine-DNA methyl transferase (MGMT) activity. Moreover, acquired resistance, due to MMR mutation, results in aggressive TMZ-resistant tumour regrowth following good initial responses. Much of the attraction in TMZ as a drug lies in its PK/PD properties: it is acid stable and has 100% oral bioavailability; it also has excellent distribution properties, crosses the blood-brain barrier, and there is direct evidence of tumour localisation. This review seeks to unravel some of the mysteries of the imidazotetrazine class of compounds to which TMZ belongs. In addition to an overview of different synthetic strategies, we explore the somewhat unusual chemical reactivity of the imidazotetrazines, probing their mechanisms of reaction, examining which attributes are required for an active drug molecule and reviewing the use of this combined knowledge towards the development of new and improved anti-cancer agents.
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Glioblastoma Multiforme Therapy and Mechanisms of ResistanceRamirez, Y.P., Weatherbee, J.L., Wheelhouse, Richard T., Ross, A.H. 11 December 2013 (has links)
Yes / Glioblastoma multiforme (GBM) is a grade IV brain tumor characterized by a heterogeneous population of cells that are highly infiltrative, angiogenic and resistant to chemotherapy. The current standard of care, comprised of surgical resection followed by radiation and the chemotherapeutic agent temozolomide, only provides patients with a 12–14 month survival period post-diagnosis. Long-term survival for GBM patients remains uncommon as cells with intrinsic or acquired resistance to treatment repopulate the tumor. In this review we will describe the mechanisms of resistance, and how they may be overcome to improve the survival of GBM patients by implementing novel chemotherapy drugs, new drug combinations and new approaches relating to DNA damage, angiogenesis and autophagy.
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Strategy for Imidazotetrazine Prodrugs with Anticancer Activity Independent of MGMT and MMRGarelnabi, Elrashied A.E., Pletsas, Dimitrios, Li, Li, Kiakos, K., Karodia, Nazira, Hartley, J.A., Phillips, Roger M., Wheelhouse, Richard T. 2012 September 1918 (has links)
Yes / The imidazotetrazine ring is an acid-stable precursor and prodrug of highly reactive alkyl diazonium ions. We have shown that this reactivity can be managed productively in an aqueous system for the generation of aziridinium ions with 96% efficiency. The new compounds are potent DNA alkylators and have antitumor activity independent of the O6-methylguanine-DNA methyltransferase and DNA mismatch repair constraints that limit the use of Temozolomide.
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