Modeling ferroptosis in human dopaminergic neurons : Pitfalls and opportunities for neurodegeneration research

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Redox Biology. Elsevier. 2024, 73, 103165. eISSN 2213-2317. Verfügbar unter: doi: 10.1016/j.redox.2024.103165
Zusammenfassung

The activation of ferroptosis is being pursued in cancer research as a strategy to target apoptosis-resistant cells. By contrast, in various diseases that affect the cardiovascular system, kidneys, liver, and central and peripheral nervous systems, attention is directed toward interventions that prevent ferroptotic cell death. Mechanistic insights into both research areas stem largely from studies using cellular in vitro models. However, intervention strategies that show promise in cellular test systems often fail in clinical trials, which raises concerns regarding the predictive validity of the utilized in vitro models.

In this study, the human LUHMES cell line, which serves as a model for human dopaminergic neurons, was used to characterize factors influencing the activation of ferroptosis. Erastin and RSL-3 induced cell death that was distinct from apoptosis. Parameters such as the differentiation state of LUHMES cells, cell density, and the number and timing of medium changes were identified as determinants of sensitivity to ferroptosis activation. In differentiated LUHMES cells, interventions at mechanistically divergent sites (iron chelation, coenzyme Q10, peroxidase mimics, or inhibition of 12/15-lipoxygenase) provide almost complete protection from ferroptosis. LUHMES cells allowed the experimental modulation of intracellular iron concentrations and demonstrated a correlation between intracellular iron levels, the rate of lipid peroxidation, as well as the sensitivity of the cells to ferroptotic cell death.

These findings underscore the importance of understanding the various factors that influence ferroptosis activation and highlight the need for well-characterized in vitro models to enhance the reliability and predictive value of observations in ferroptosis research, particularly when translating findings into in vivo contexts.

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570 Biowissenschaften, Biologie
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Ferroptosis, LUHMES, Dopamine neurons, Hydroxyl radical, In vitro model, Parkinson's disease
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ISO 690RENNER, Nadine, Franziska SCHÖB, Regina PAPE, Ilinca SUCIU, Anna-Sophie SPRENG, Anna-Katharina ÜCKERT, Eike CÖLLEN, Federica BOVIO, Marcel LEIST, Stefan SCHILDKNECHT, 2024. Modeling ferroptosis in human dopaminergic neurons : Pitfalls and opportunities for neurodegeneration research. In: Redox Biology. Elsevier. 2024, 73, 103165. eISSN 2213-2317. Verfügbar unter: doi: 10.1016/j.redox.2024.103165
BibTex
@article{Renner2024-07Model-69937,
  year={2024},
  doi={10.1016/j.redox.2024.103165},
  title={Modeling ferroptosis in human dopaminergic neurons : Pitfalls and opportunities for neurodegeneration research},
  volume={73},
  journal={Redox Biology},
  author={Renner, Nadine and Schöb, Franziska and Pape, Regina and Suciu, Ilinca and Spreng, Anna-Sophie and Ückert, Anna-Katharina and Cöllen, Eike and Bovio, Federica and Leist, Marcel and Schildknecht, Stefan},
  note={Article Number: 103165}
}
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In this study, the human LUHMES cell line, which serves as a model for human dopaminergic neurons, was used to characterize factors influencing the activation of ferroptosis. Erastin and RSL-3 induced cell death that was distinct from apoptosis. Parameters such as the differentiation state of LUHMES cells, cell density, and the number and timing of medium changes were identified as determinants of sensitivity to ferroptosis activation. In differentiated LUHMES cells, interventions at mechanistically divergent sites (iron chelation, coenzyme Q10, peroxidase mimics, or inhibition of 12/15-lipoxygenase) provide almost complete protection from ferroptosis. LUHMES cells allowed the experimental modulation of intracellular iron concentrations and demonstrated a correlation between intracellular iron levels, the rate of lipid peroxidation, as well as the sensitivity of the cells to ferroptotic cell death.

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