Three-dimensional HepaRG model as an attractive tool for toxicity testing.

The culture of HepaRG cells as three dimensional (3D) structures in the spinner-bioreactor may represent added value as a hepatic system for toxicological purposes. The use of a cost-effective commercially available bioreactor, which is compatible with high-throughput cell analysis, constitutes an attractive approach for routine use in the drug testing industry. In order to assess specific aspects of the biotransformation capacity of the bioreactor-based HepaRG system, the induction of CYP450 enzymes (i.e., CYP1A2, 2B6, 2C9, and 3A4) and the activity of the phase II enzyme, uridine diphosphate glucuronoltransferase (UGT), were tested. The long-term functionality of the system was demonstrated by 7-week stable profiles of albumin secretion, CYP3A4 induction, and UGT activities. Immunofluorescence-based staining showed formation of tissue-like arrangements including bile canaliculi-like structures and polar distribution of transporters. The use of in silico models to analyze the in vitro data related to hepatotoxic activity of acetaminophen (APAP) demonstrated the advantage of the integration of kinetic and dynamic aspects for a better understanding of the in vitro cell behavior. The bioactivation of APAP and its related cytotoxicity was assessed in a system compatible to high-throughput screening. The approach also proved to be a good strategy to reduce the time necessary to obtain fully differentiated cell cultures. In conclusion, HepaRG cells cultured in 3D spinner-bioreactors are an attractive tool for toxicological studies, showing a liver-like performance and demonstrating a practical applicability for toxicodynamic approaches.

Potent neuroprotective effects of novel structural derivatives of valproic acid: potential roles of HDAC inhibition and HSP70 induction.

Emerging evidence suggests that the neuroprotective effects of valproic acid (VPA) occur via inhibition of histone deacetylases (HDACs) and activation of gene expression. This study assessed the ability of four VPA derivatives to cause histone hyperacetylation and protect against glutamate-induced excitotoxicity in cultured neurons. We found that (S)-2-pentyl-4-pentynoic acid (compound III) and (+/-)-2-hexyl-4-pentynoic acid (compound V) were far more potent and robust than VPA in inducing histone hyperacetylation and protecting against glutamate excitotoxicity. Thus, the increase in histone acetylation elicited by compounds III and V was significant at 5microM and reached a maximal increase of 600-700% at 50-100microM, compared with only a 200% increase by VPA at 100microM. The neuroprotective effects of compounds III and V were evident at 10-25microM and reached a complete protection at 50-100microM, while a significant partial protection by VPA was observed at 100microM. These two compounds were also more effective than VPA in increasing HSP70-1a and HSP70-1b mRNA levels. At 50microM, compound V was most robust in increasing HSP-1a mRNA levels, followed by compound III, and then by VPA. HSP-1b mRNA was only significantly upregulated by compounds V and III, but not by VPA or other VPA derivatives under these treatment conditions. Our results suggest that these two VPA derivatives may ultimately be developed into potent neuroprotective drugs in preclinical and clinical studies.

Metabolic activation capacity by primary hepatocytes expands the applicability of the embryonic stem cell test as alternative to experimental animal testing.

The murine embryonic stem cell test (EST) represents a validated alternative method for in vivo embryotoxicity testing. In the present study, primary hepatocytes were combined with the EST by a preincubation approach to improve its predictivity on bioactivation caused teratogenicity. As substances the well-known proteratogens cyclophosphamide (CPA) and valpromide (VPD) were used. The embryotoxic potential of CPA was detected by a strong decrease of the resulting ID(50)-concentration (50% inhibition of ES cell differentiation) after incubation with murine hepatocytes. Interspecies variation in metabolism was detected by testing VPD. After incubation of VPD with murine hepatocytes no inhibition of ES cell differentiation was observed, since hardly any teratogenic VPD metabolites were formed. In contrast, with human hepatocytes a significant conversion of VPD into the teratogen valproic acid (VPA) was observed. In summary we developed a co-culture approach for embryotoxicity testing, whereby the test compounds were incubated with hepatocytes and the supernatant was added to the ES cell culture to obtain a dose dependency of the preincubated test substances.