1995
DOI: 10.1007/bf00686835
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Direct evaluation of intracellular accumulation of free and polymer-bound anthracyclines

Abstract: Nanoparticulate carriers of anthracyclines are being developed with the aim of improving the pharmacokinetic or pharmacodynamic behavior of these drugs. To understand how the drug reaches its nuclear targets, we have developed two methods that allow the quantification of the interaction between an anthracycline and cellular DNA: (1) by direct evaluation of the quenching of anthracycline fluorescence due to the intercalation of the drug into DNA and (2) by the measurement of Hoechst 33258 fluorescence associate… Show more

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Cited by 17 publications
(6 citation statements)
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“…This would rule out the possibility that quenching of DXR fluorescence, a concern in the present studies, was not due to the interaction of the chemotherapeutic drug with lipids or other molecules in the intracellular environment. 30 The observations we made using fluorescence microscopy in the present experiments also indicate that, the cytoplasm and chromosomal DNA of both DXR-sensitive (WT) and -resistant (ASMase-null) oocytes are primary targets for DXR. Moreover, early interference with either DXR uptake or DNA retention is crucial for the prevention of DNA damage induced by DXR.…”
Section: Discussionsupporting
confidence: 65%
“…This would rule out the possibility that quenching of DXR fluorescence, a concern in the present studies, was not due to the interaction of the chemotherapeutic drug with lipids or other molecules in the intracellular environment. 30 The observations we made using fluorescence microscopy in the present experiments also indicate that, the cytoplasm and chromosomal DNA of both DXR-sensitive (WT) and -resistant (ASMase-null) oocytes are primary targets for DXR. Moreover, early interference with either DXR uptake or DNA retention is crucial for the prevention of DNA damage induced by DXR.…”
Section: Discussionsupporting
confidence: 65%
“…17 One of the many approaches to overcome these limitations and enhance the efficacy of DOX is by utilizing polymers as drug carriers. Various polyanions such as polyglutamate; 18 polyaspartate, 19 poly(acrylic acid), 20,21 γ-polyglutamic acid, 22 block ionomers of aspartate, benzyl glutamate 23 and benzyl aspartate 24 with poly-(ethylene oxide) have demonstrated encouraging results in terms of binding and delivering DOX into targeted cells and tissues. Consequently, anionic poly(methacrylic acid-co-cholesteryl methacrylate) P(MAA-co-CMA) copolymer series -comprised of enriched electrostatic binding abilities and pHresponsive/membrane disruptive properties -were investigated as potential DOX carriers.…”
Section: Introductionmentioning
confidence: 99%
“…24,25 DOX possesses positive charge and has been studied for its complexation with various anionic polymers such as poly(acrylic acid), 26,27 γ-polyglutamic acid, 28 polyaspartate, 24,29 polyglutamate, 30 block ionomers of aspartate, benzyl aspartate, [31][32][33][34] benzyl glutamate, 29 and polyethylene oxide. These polyanions form polyelectrolyte complexes with DOX.…”
Section: Introductionmentioning
confidence: 99%