Heike Scheffler scite author profile

The knowledge of the cellular molar concentration of a drug is an extremely important parameter for the discussion and interpretation of its efficacy and bioavailability. Concerning metal complexes, electrothermal atomic absorption spectroscopy (ETAAS) offers a valuable analytical tool. However, matrix effects often hamper proper quantification of the metal concentration in biological tissues. This paper describes the development of an ETAAS method for the quantification of the molar gold concentration in HT-29 colon carcinoma cells. ETAAS analytical conditions were optimised and a factor was developed which allows the calculation of the molar cellular gold concentration from the measured gold per cellular biomass value. The method was used to quantify the gold content in HT-29 cells after exposure to the gold drug auranofin. Results indicated a strong cellular uptake of auranofin (compared to other metal anticancer drugs), which significantly correlated with the antiproliferative effects triggered by this agent.

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Proposal for a risk assessment methodology for skin sensitization based on sensitization potency data

Griem

Goebel

Scheffler

2003

Regulatory Toxicology and Pharmacology

117

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Naphthalimide gold(i) phosphine complexes as anticancer metallodrugs

et al. 2009

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Gold(I) phosphine complexes exhibit promising properties for anticancer drug development. Here we report on a series of gold(I) phosphine complexes containing a naphthalimide ligand. Strong antiproliferative effects were observed in MCF-7 breast cancer cells as well as in HT-29 colon carcinoma cells. The cellular and nuclear gold levels were increased compared to analogues, in which the naphthalimide ligand was replaced by a chloro ligand. Compound 4a was selected for more detailed biochemical and biological studies, which revealed solvent dependent fluorescence emission, uptake of the compound into the organelles of tumor cells as well as antiangiogenic effects concerning angiogenesis and tumor-induced angiogenesis in vivo. Antiangiogenic properties of 4a were observed in two different zebrafish angiogenesis models, including a tumor-cell induced neovascularization assay.

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Characterization of the Sensitizing Potential of Chemicals by In Vitro Analysis of Dendritic Cell Activation and Skin Penetration

Aeby¹,

Wyss²,

Beck³

et al. 2004

Journal of Investigative Dermatology

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Development of in vitro models to identify sensitizing chemicals receives public interest since animal testing should be avoided whenever possible. In this article we analyze two essential properties of sensitizing chemicals: skin penetration and dendritic cell (DC) activation. Activation of immature DC derived from peripheral blood monocytes was evaluated by flow cytometric analysis of CD86 positive cells and quantitative measurement of interleukin-1beta and aquaporin P3 gene expression. The sensitizer 2,4,6-trinitrobenzenesulfonic acid induced a concentration-dependent response for all parameters, whereas the irritant sodium lauryl sulfate did not. When two related aromatic amines, p-toluylenediamine (PTD) and hydroxyethyl-p-phenylenediamine (HE-PPD) were tested, both induced substantial DC activation indicating their potential sensitizing properties. These findings contrasted with in vivo results: in murine local lymph node assays (LLNA) PTD, but not HE-PPD, was sensitizing using acetone/aqua/olive oil as vehicle. Skin penetration measurement revealed that this was due to bioavailability differences. On retesting HE-PPD in the LLNA using the penetration enhancer dimethylsulfoxide as vehicle, it induced a specific response. We conclude that in vitro analysis of DC activation capability of the two selected chemicals demonstrates that prediction of skin sensitization potential is possible provided that skin penetration data indicate sufficient bioavailability of the test compound.

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Heike Scheffler

Comparative studies on the cytotoxicity, cellular and nuclear uptake of a series of chloro gold(I) phosphine complexes

Development of a Method for the Quantification of the Molar Gold Concentration in Tumour Cells Exposed to Gold‐Containing Drugs

Proposal for a risk assessment methodology for skin sensitization based on sensitization potency data

Naphthalimide gold(i) phosphine complexes as anticancer metallodrugs

Characterization of the Sensitizing Potential of Chemicals by In Vitro Analysis of Dendritic Cell Activation and Skin Penetration

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