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W2034509936 endingPage "2855" @default.
W2034509936 startingPage "2849" @default.
W2034509936 abstract "Abstract Potential consequences of the binding of the anticancer drug cisplatin to various biomolecules in the cell have been investigated by using a combined density functional theory and continuum dielectric model approach. Since the ammine ligands remain coordinated at the metal upon formation of the most frequent DNA adducts, whereas they were found to be displaced from the metal upon formation of drug metabolites, we have analyzed the factors governing ammine loss from platinum( II ) complexes as a possible pathway of cisplatin inactivation. The calculations systematically show the effect of 1) the trans ligand, 2) the charge of complex, 3) the nucleophile, and 4) the environment on the thermodynamic instability and kinetic lability of the platinum–ammine bonds. After initial binding of cisplatin hydrolysis products to thioethers or thiols, loss of the ammine trans to this sulfur ligand rather than replacement of the sulfur ligand itself by other nucleophiles like guanine‐N7 is predicted to be the predominant reaction. The results of this study contribute to an understanding of the modes of cisplatin inactivation prior to DNA binding, for example, by elevated glutathione levels in cisplatin‐resistant cancer cells." @default.
W2034509936 created "2016-06-24" @default.
W2034509936 creator A5035425997 @default.
W2034509936 creator A5088642917 @default.
W2034509936 date "2005-04-15" @default.
W2034509936 modified "2023-10-18" @default.
W2034509936 title "Loss of Ammine from Platinum(II) Complexes: Implications for Cisplatin Inactivation, Storage, and Resistance" @default.
W2034509936 cites W1504784308 @default.
W2034509936 cites W150677383 @default.
W2034509936 cites W1935774199 @default.
W2034509936 cites W1963737263 @default.
W2034509936 cites W1964837435 @default.
W2034509936 cites W1966182479 @default.
W2034509936 cites W1972562299 @default.
W2034509936 cites W1974544178 @default.
W2034509936 cites W1977392669 @default.
W2034509936 cites W1980034942 @default.
W2034509936 cites W1983285232 @default.
W2034509936 cites W1988120733 @default.
W2034509936 cites W2000029338 @default.
W2034509936 cites W2003706534 @default.
W2034509936 cites W2006136788 @default.
W2034509936 cites W2012108057 @default.
W2034509936 cites W2017030176 @default.
W2034509936 cites W2017681697 @default.
W2034509936 cites W2018032278 @default.
W2034509936 cites W2018304699 @default.
W2034509936 cites W2019842470 @default.
W2034509936 cites W2022947282 @default.
W2034509936 cites W2023271753 @default.
W2034509936 cites W2023475157 @default.
W2034509936 cites W2024144066 @default.
W2034509936 cites W2026467865 @default.
W2034509936 cites W2028324262 @default.
W2034509936 cites W2043610941 @default.
W2034509936 cites W2046412723 @default.
W2034509936 cites W2048168597 @default.
W2034509936 cites W2049213995 @default.
W2034509936 cites W2053135748 @default.
W2034509936 cites W2061545818 @default.
W2034509936 cites W2065531352 @default.
W2034509936 cites W2066539192 @default.
W2034509936 cites W2066892428 @default.
W2034509936 cites W2071811082 @default.
W2034509936 cites W2072557746 @default.
W2034509936 cites W2073319135 @default.
W2034509936 cites W2075970098 @default.
W2034509936 cites W2076586270 @default.
W2034509936 cites W2077597479 @default.
W2034509936 cites W2078256883 @default.
W2034509936 cites W2079352249 @default.
W2034509936 cites W2079473982 @default.
W2034509936 cites W2082903593 @default.
W2034509936 cites W2083577305 @default.
W2034509936 cites W2083810455 @default.
W2034509936 cites W2084492467 @default.
W2034509936 cites W2086481154 @default.
W2034509936 cites W2089617521 @default.
W2034509936 cites W2093282189 @default.
W2034509936 cites W2096517067 @default.
W2034509936 cites W2096847256 @default.
W2034509936 cites W2098573700 @default.
W2034509936 cites W2104646138 @default.
W2034509936 cites W2111570380 @default.
W2034509936 cites W2112022201 @default.
W2034509936 cites W2120113507 @default.
W2034509936 cites W2134427214 @default.
W2034509936 cites W2136449327 @default.
W2034509936 cites W2139393693 @default.
W2034509936 cites W2143981217 @default.
W2034509936 cites W2156011638 @default.
W2034509936 cites W2159076916 @default.
W2034509936 cites W2389332655 @default.
W2034509936 cites W2952165521 @default.
W2034509936 cites W3004520433 @default.
W2034509936 cites W3022614273 @default.
W2034509936 cites W4236905799 @default.
W2034509936 cites W437816938 @default.
W2034509936 doi "https://doi.org/10.1002/chem.200401053" @default.
W2034509936 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/15744707" @default.
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