Predicting Drug Metabolism-dependent Toxicity for Humans with a Genetically Engineered Cell Battery

This paper covers the presentation of an invited lecture -- the FRAME Annual Lecture -- given in London on 8 November 2006. Investigating the metabolism of chemicals in general, and of drugs and pollutants in particular, is of key importance to understanding pharmacological and toxicological effects...

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Bibliographic Details
Published inAlternatives to laboratory animals Vol. 34; no. 6; pp. 561 - 575
Main Author Doehmer, J
Format Journal Article
LanguageEnglish
Published England 01.12.2006
Subjects
Animal Testing Alternatives
Animals
Cell Line
cells
Cells - drug effects
Cells - metabolism
Cytochrome P-450 CYP1A1
drug development
drug toxicity
Drug-Related Side Effects and Adverse Reactions
drugs
Fishes
Fluorenes - metabolism
Gene Expression Regulation, Enzymologic
genetic engineering
Genetic Engineering - methods
genetically engineered cells
genetically engineered V79 cells
Humans
in vitro studies
metabolism
Mice
Pharmaceutical Preparations - metabolism
pharmacokinetics
Rats
Species Specificity
Toxicity Tests - methods
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Summary:This paper covers the presentation of an invited lecture -- the FRAME Annual Lecture -- given in London on 8 November 2006. Investigating the metabolism of chemicals in general, and of drugs and pollutants in particular, is of key importance to understanding pharmacological and toxicological effects. Over more than 15 years, the genes encoding the enzymes involved, have been individually cloned and expressed after gene transfer into V79 Chinese hamster cells, yielding a collection of cell lines -- the socalled V79 Cell Battery. With this technology, it has become possible to study the relevant enzymes individually, thus avoiding complex in vivo situations. By cloning genes from different species, including humans, species-species comparison became possible, yielding results of immediate predictive value for humans. Since V79 cells had already been approved by the OECD for toxicity studies since the 1980s, the metabolically competent V79 cell lines are of even greater value, as metabolism and toxicity testing are linked in the very same cells in a highly defined fashion. The results obtained so far with the genetically engineered V79 cell lines justify their acceptance as alternatives to animal experimentation in drug development and in the toxicity testing of chemicals, serving the goals of the Three Rs and, in particular, the most important R: Replacement
ISSN:0261-1929
DOI:10.1177/026119290603400610