TY - JOUR
KW - brain organoids
KW - cytotoxicity
KW - liver spheroids
KW - multi-organ model
KW - neurotoxicity
AU - Wei Wu
AU - Faiza Anas
AU - Baran Koc
AU - Lipeng Tian
AU - Ryan Hasselkus
AU - Darian Rezania
AU - Sophia Sharareh
AU - Luba Farberov
AU - Dor Zlotnik
AU - Ariel Alon
AU - Guy Tenzer
AU - Isaac Bentwich
AU - Amir Bein
AB - Accurate prediction of drug toxicity is a major challenge for therapeutic development. The use of animal models for predicting toxicity has been a longstanding practice, but often falls short in accurately predicting human-specific responses. Human in vitro models, such as organoids and spheroids, provide alternative approaches to animal models. In this study, we employed primary human-derived liver spheroids (hLiSps) and human induced pluripotent stem cells (iPSC)-derived brain organoids (hiBOs) to create a combined Liver+Brain model for neurotoxicity assessment, to investigate the potential influence of incorporating a liver preconditioning component on toxic responses in the brain. Comparing the effect of six example drugs that are known to cause adverse clinical neurological effects, we observed that troglitazone (Trgl), tested at clinically relevant doses in the Liver+Brain model, caused a significantly greater reduction in cell viability compared to similar treatments in the Brain-only model. This was further confirmed across multiple donors and various stages of brain organoid development. In contrast, we found that high dose valproic acid treatment increased cell viability in the Liver+Brain model. Transcriptome analysis using RNA-seq revealed that liver-preconditioned Trgl elicited a more pronounced transcriptional response in hiBOs, identifying a 7-fold increase in the number of affected genes and over a 10-fold increase in affected pathways containing gene set components specifically associated with cell division and neurogenesis, which were not observed in the Brain model. Taken together, our data suggest that the addition of hLiSps to hiBOs is critical to accurately assess neurotoxicity using a comprehensive human in vitro model.
BT - Biomedicine & Pharmacotherapy
DA - 2025-05-01
DO - 10.1016/j.biopha.2025.118021
N2 - Accurate prediction of drug toxicity is a major challenge for therapeutic development. The use of animal models for predicting toxicity has been a longstanding practice, but often falls short in accurately predicting human-specific responses. Human in vitro models, such as organoids and spheroids, provide alternative approaches to animal models. In this study, we employed primary human-derived liver spheroids (hLiSps) and human induced pluripotent stem cells (iPSC)-derived brain organoids (hiBOs) to create a combined Liver+Brain model for neurotoxicity assessment, to investigate the potential influence of incorporating a liver preconditioning component on toxic responses in the brain. Comparing the effect of six example drugs that are known to cause adverse clinical neurological effects, we observed that troglitazone (Trgl), tested at clinically relevant doses in the Liver+Brain model, caused a significantly greater reduction in cell viability compared to similar treatments in the Brain-only model. This was further confirmed across multiple donors and various stages of brain organoid development. In contrast, we found that high dose valproic acid treatment increased cell viability in the Liver+Brain model. Transcriptome analysis using RNA-seq revealed that liver-preconditioned Trgl elicited a more pronounced transcriptional response in hiBOs, identifying a 7-fold increase in the number of affected genes and over a 10-fold increase in affected pathways containing gene set components specifically associated with cell division and neurogenesis, which were not observed in the Brain model. Taken together, our data suggest that the addition of hLiSps to hiBOs is critical to accurately assess neurotoxicity using a comprehensive human in vitro model.
PY - 2025
EP - 118021
T2 - Biomedicine & Pharmacotherapy
TI - Multi-organ model assessment of neurotoxicity following exposure of liver spheroids to drugs
UR - https://www.sciencedirect.com/science/article/pii/S075333222500215X
VL - 186
Y2 - 2025-04-25
SN - 0753-3322
ER -