Stability of Doxorubicin in Relation to Chemosensitivity Determinations: Loss of Lethality and Retention of Antiproliferative Activity

Pavlik, Edward J.; Kenady, Daniel E.; Nagell, J.R. van; Hanson, M.; Donaldson, Elvis S.; Casper, Scott E.; Garrett, Destane; Smith, David F.; Keaton, Kathryn; Flanigan, Robert C.

doi:10.3109/07357908409048518

Cited by 16 publications

(6 citation statements)

References 14 publications

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“…The DXR metabolic pathway is now well documented (Israel e l al., 1978;Quattrone and Ranney, 1980) but nonmetabolic degradation, which converts anthracycline antibiotics in culture medium to 'pseudo'-metabolites, has not been well studied so far (Hoffman et al, 1979;Benvenuto et al, 1981;Robert, 1980;Ludwig and Alberto, 1984;Pavlik et al, 1984).…”

Section: Resultsmentioning

confidence: 99%

Study of doxorubicin photodegradation in plasma, urine and cell culture medium by HPLC

Bot

Riche

Guedes

et al. 1987

Biomedical Chromatography

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An HPLC method was used to monitor the chemical stability of doxorubicin-HCl (DXR) to light in plasma, urine and cell culture medium at room temperature. The results indicated that DXR was very unstable in cell culture medium and urine when exposed to light. It was more stable in plasma under the same conditions. In all the cases, the decrease in the amount of DXR is greatly dependent on light intensity (no noticeable degradation was observed after 8 h in the dark). These observations may be important for the correct interpretation of the effects and the toxicity of doxorubicin on cells incubated in cell medium, and for determination of urinary or plasma pharmacokinetic parameters.

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Section: Resultsmentioning

confidence: 99%

Study of doxorubicin photodegradation in plasma, urine and cell culture medium by HPLC

Bot

Riche

Guedes

et al. 1987

Biomedical Chromatography

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“…Compounds 4 and 6 were further subjected to DAPI (4 ,6-diamidino-2-phenylindole) staining in order to provide a more detailed picture of their antiproliferative and cytotoxic mechanisms. Prior to this assay, compound stability in cell culture media was evaluated after 72 h, using a thin-layer chromatography (TLC)-based protocol, with the necessary modifications [57,58]. Developed plates (using three different revealing agents) showed no other spots except the one corresponding to the original compound, suggesting that compounds 4 and 6 show no signs of decomposition in culture media for 72 h. Considering that compound 4 (highest overall cytotoxic activity) exhibited the highest overall cytotoxic activity on the melanoma cell line panel, the DAPI test was conducted on three human melanoma cell lines: A375, RPMI, and SK-MEL-28.…”

Section: Biological Activity 221 Nci-60 Anticancer Drug Screeningmentioning

confidence: 99%

“…The stability of the assessed compounds in the culture media was evaluated by thin layer chromatography (TLC), this representing a viable and easy to achieve technique for this specific endpoint [57,58]. Compounds 4 and 6 were dissolved in DMSO, and the solutions were successively diluted to a 5 µM final concentration in culture media (DMEM and EMEM) so that the final DMSO concentration did not exceed 0.5%.…”

Section: Compound Stability In Cell Culture Mediamentioning

confidence: 99%

Novel Synthesized N-Ethyl-Piperazinyl-Amides of C2-Substituted Oleanonic and Ursonic Acids Exhibit Cytotoxic Effects through Apoptotic Cell Death Regulation

Казакова

Mioc

Смирнова

et al. 2021

IJMS

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A series of novel hybrid chalcone N-ethyl-piperazinyl amide derivatives of oleanonic and ursonic acids were synthesized, and their cytotoxic potential was evaluated in vitro against the NCI-60 cancer cell line panel. Compounds 4 and 6 exhibited the highest overall anticancer activity, with GI50 values in some cases reaching nanomolar values. Thus, the two compounds were further assessed in detail in order to identify a possible apoptosis- and antiangiogenic-based mechanism of action induced by the assessed compounds. DAPI staining revealed that both compounds induced nuclei condensation and overall cell morphological changes consistent with apoptotic cell death. rtPCR analysis showed that up-regulation of pro-apoptotic Bak gene combined with the down-regulation of the pro-survival Bcl-XL and Bcl-2 genes caused altered ratios between the pro-apoptotic and anti-apoptotic proteins’ levels, leading to overall induced apoptosis. Molecular docking analysis revealed that both compounds exhibited high scores for Bcl-XL inhibition, suggesting that compounds may induce apoptotic cell death through targeted anti-apoptotic protein inhibition, as well. Ex vivo determinations showed that both compounds did not significantly alter the angiogenesis process on the tested cell lines.

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“…Degradation of antitumor compounds is a common problem for pharmacologists. 1 The efficacy of an antitumor drug is related to the intracellular drug concentration as well as to the rate of cell uptake. 2 Anthracycline antibiotics, Doxorubicin (I) and Daunorubicin (l')(Chart 1) are benzanthraquinone drugs, which are useful in the treatement of several type of human malignancies.…”

Section: Introductionmentioning

confidence: 99%

“…Acta 1 9 9 3,11 77,236 1 2. Beraldo, H., Garnier-Suillerot, A., Tosi, L., and Lavelle, F. Biochemistry I 9 8 5,24,2841 3. Beraldo, H., Garnier-Suillerot, A., and Tosi, L. lnorg.…”

mentioning

confidence: 99%

Degradation of Anthracycline Antitumor Compounds Catalysed by Metal Ions

1994

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The influence of some metal ions on the degradation of anthracyclines was examined. One of the degradation products is the 7,8-dehydro-9,10-desacetyldoxorubicinone, D* (¥), usually formed by hydrolysis at slightly basic pH. D* is a lipophilic compound with no cytostatic properties. Its formation could be responsible for the lack of antitumor activity of the parent compound. The coordination of metal ions to anthracycline derivatives is required to have degradation products. Cations such as Na+, K+, or Ca2+ do not induce the D* formation however metals which can form stable complexes with doxorubicin afford D*. Iron(III) and copper(II) form appreciable amount of D* at slightly acidic pH. Terbium(III) forms D* but its complex is stable only at slightly basic pH. Palladium(II) which does not form D*. The influence of the coordination mode of metal ions to anthracycline on the D* formation is discussed.

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Stability of Doxorubicin in Relation to Chemosensitivity Determinations: Loss of Lethality and Retention of Antiproliferative Activity

Cited by 16 publications

References 14 publications

Study of doxorubicin photodegradation in plasma, urine and cell culture medium by HPLC

Study of doxorubicin photodegradation in plasma, urine and cell culture medium by HPLC

Novel Synthesized N-Ethyl-Piperazinyl-Amides of C2-Substituted Oleanonic and Ursonic Acids Exhibit Cytotoxic Effects through Apoptotic Cell Death Regulation

Degradation of Anthracycline Antitumor Compounds Catalysed by Metal Ions

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