Use of physiologically based kinetic modeling to predict neurotoxicity and genotoxicity of methylglyoxal in humans.

Zheng, Liang; Li, Xiyu; Widjaja, Frances; Liu, Chen; Rietjens, Ivonne M. C. M.

This study aimed to evaluate human neurotoxicity and genotoxicity risks from dietary and endogenous methylglyoxal (MGO), utilizing physiologically based kinetic (PBK) modeling-facilitated reverse dosimetry as a new approach methodology (NAM) to extrapolate in vitro toxicity data to in vivo dose-response predictions. A human PBK model was defined based on a newly developed and evaluated mouse model enabling the translation of in vitro toxicity data for MGO from human stem cell-derived neurons and WM-266-4 melanoma cells into quantitative human in vivo toxicity data and subsequent risk assessment by the margin of exposure (MOE) approach. The results show that the MOEs resulting from daily dietary intake did not raise a concern for endpoints for neurotoxicity including mitochondrial function, cytotoxicity, and apoptosis, while those for DNA adduct formation could not exclude a concern over genotoxicity. Endogenous MGO formation, especially under diabetic conditions, resulted in MOEs that raised concern not only for genotoxicity but also for some of the neurotoxicity endpoints evaluated. Thus, the results also point to the importance of taking the endogenous levels into account in the risk assessment of MGO.

GENETIC translation; CYTOTOXINS; FOOD consumption; LABORATORY mice; NEUROTOXICOLOGY; GENETIC toxicology

NPJ Science of Food, 2024, Vol 8, Issue 1, p1

2396-8370

Academic Journal

10.1038/s41538-024-00322-6