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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

In Vivo Selectivity and Localization of Reactive Oxygen Species (ROS) Induction by Osmium Anticancer Complexes That Circumvent Platinum Resistance

Coverdale, J.P.C., Bridgewater, H.E., Song, J.-I., Smith, N.A., Barry, Nicolas P.E., Bagley, I., Sadler, P.J., Romero-Canelon, I. 2018 September 1919 (has links)
Yes / Platinum drugs are widely used for cancer treatment. Other precious metals are promising, but their clinical progress depends on achieving different mechanisms of action to overcome Pt-resistance. Here, we evaluate 13 organo-Os complexes: 16-electron sulfonyl-diamine catalysts [(η6-arene)Os(N,N′)], and 18-electron phenylazopyridine complexes [(η6-arene)Os(N,N’)Cl/I]+ (arene = p-cymene, biphenyl, or terphenyl). Their antiproliferative activity does not depend on p21 or p53 status, unlike cisplatin, and their selective potency toward cancer cells involves the generation of reactive oxygen species. Evidence of such a mechanism of action has been found both in vitro and in vivo. This work appears to provide the first study of osmium complexes in the zebrafish model, which has been shown to closely model toxicity in humans. A fluorescent osmium complex, derived from a lead compound, was employed to confirm internalization of the complex, visualize in vivo distribution, and confirm colocalization with reactive oxygen species generated in zebrafish. / Wellcome Trust (grant no. 107691/Z/15/Z), ERC (grant nos. 247450, 324594), Science City (AWM and ERDF), WCPRS and Bruker Daltonics (Studentship for JPCC), Mike and Enfys Bagguley, and EPSRC (Studentship for HEB, and grant no. EP/F034210/1)
2

Multinuclear platinum anticancer therapeutics : insights into their solution chemistry and DNA binding interactions from NMR spectroscopy and molecular modelling

Ruhayel, Rasha A. January 2010 (has links)
In the 1980's, Nicholas Farrell developed a range of structurally distinct multinuclear Pt complexes that form long-range interstrand crosslinks (IXLs) in DNA. The dinuclear complex [{trans-PtCl2(NH3)}2-µ-(H2N(CH2)6NH2)]2+ (1,1/t,t) was the first of this series to show promising results, however, it was the trinuclear complex [{trans-PtCl2(NH3)}2-µ-trans-Pt(NH3)2(H2N(CH2)6NH2)2]4+ (1,0,1/t,t,t or BBR3464) that was chosen for clinical trials based on significantly increased cytotoxicity compared to 1,1/t,t and cisplatin. Molecular biology experiments have shown that 1,1/t,t exclusively forms IXLs in DNA in the 5'¿ 5' direction, whilst 1,0,1/t,t,t can form IXLs in both the 5'¿5' and 3'¿3' directions. Previously, 2D [1H,15N] HSQC NMR has been used to study the formation of 5'–5' 1,4–GG IXLs. The formation of 3'–3' 1,4–GG IXLs have been studied as part of this thesis. More recently, Pt complexes such as [{trans–PtCl2(NH3)}2{H2N(CH2)6(NH2(CH2)2NH2)(CH2)6NH2}]4+ (1,1/t,t–6,2,6) and [{trans–PtCl2(NH3)}2{H2N(CH2)6(NH2)(CH2)6NH2}]3+ (1,1/t,t–6,6), where the charged central Pt moiety of 1,0,1/t,t,t is replaced by a polyamine linker, have been developed in the Farrell group and show increased potency compared to 1,0,1/t,t,t. The complex 1,1/t,t 6,2,6 is a lead candidate currently undergoing Phase I clinical trials. Prior to the work presented in this thesis, little was known about the aquation chemistry or kinetics of DNA binding of these novel complexes. Reported in Chapter 3 is the study of the formation of 3'–3' 1,4–GG IXLs by both 1,0,1/t,t,t and 1,1/t,t in the duplex 5' {d(TATACATGTATA)2} (33–14XL) (pH 5.4, 298K). A combination of 1D 1H and 2D [1H, 15N] HSQC NMR experiments was used to directly compare the results with the stepwise formation of the 5'–5' 1,4–GG IXL with the previously studied duplex, 5' {d(ATATGTACATAT)2} (55–14XL), under the same conditions. Preassociation as well as aquation were similar, however, differences were observed at the monofunctional binding step with evidence for numerous monofunctional adducts. Both reactions did not yield a single 3'–3' 1,4–GG IXL, rather several adducts that could not be characterised. Molecular dynamics simulations of the 3'–3' 1,4–GG IXLs showed highly distorted lesions that may have implication in cellular repair processes.

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