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1. In Vitro Assessment of the Genotoxic Hazard of Novel Hydroxamic Acid- and Benzamide-Type Histone Deacetylase Inhibitors (HDACi)

Author

Thomas Kurz, Finn K. Hansen, Matthias U. Kassack, Lena Schumacher, Gerhard Fritz, Annabelle Friedrich, Marc Pflieger, Wynand P. Roos, Jana van Stuijvenberg, Ann-Sophie Assmann, and Wolfgang A. Schulz

Subjects

DNA damage, Apoptosis, Hydroxamic Acids, DNA damage response, Article, Catalysis, Cell Line, Histones, Inorganic Chemistry, lcsh:Chemistry, chemistry.chemical_compound, HDAC inhibitors, Cricetinae, DNA strand breaks, medicine, Animals, Humans, DNA Breaks, Double-Stranded, DNA Breaks, Single-Stranded, Phosphorylation, Physical and Theoretical Chemistry, normal tissue toxicity, Molecular Biology, Vorinostat, lcsh:QH301-705.5, Spectroscopy, Micronucleus Tests, Hydroxamic acid, Mutagenicity Tests, Entinostat, Organic Chemistry, Histone H2AX, genetic instability, General Medicine, Computer Science Applications, Histone Deacetylase Inhibitors, chemistry, lcsh:Biology (General), lcsh:QD1-999, Benzamides, Cancer research, Comet Assay, Histone deacetylase, genotoxic hazard, DNA, Mutagens, Nucleotide excision repair, medicine.drug

Abstract

Histone deacetylase inhibitors (HDACi) are already approved for the therapy of leukemias. Since they are also emerging candidate compounds for the treatment of non-malignant diseases, HDACi with a wide therapeutic window and low hazard potential are desirable. Here, we investigated a panel of 12 novel hydroxamic acid- and benzamide-type HDACi employing non-malignant V79 hamster cells as toxicology guideline-conform in vitro model. HDACi causing a &ge, 10-fold preferential cytotoxicity in malignant neuroblastoma over non-malignant V79 cells were selected for further genotoxic hazard analysis, including vorinostat and entinostat for control. All HDACi selected, (i.e. KSK64, TOK77, DDK137 and MPK77) were clastogenic and evoked DNA strand breaks in non-malignant V79 cells as demonstrated by micronucleus and comet assays, histone H2AX foci formation analyses (&gamma, H2AX), DNA damage response (DDR) assays as well as employing DNA double-strand break (DSB) repair-defective VC8 hamster cells. Genetic instability induced by hydroxamic acid-type HDACi seems to be independent of bulky DNA adduct formation as concluded from the analysis of nucleotide excision repair (NER) deficient mutants. Summarizing, KSK64 revealed the highest genotoxic hazard and DDR stimulating potential, while TOK77 and MPK77 showed the lowest DNA damaging capacity. Therefore, these compounds are suggested as the most promising novel candidate HDACi for subsequent pre-clinical in vivo studies.

Published

2020