TY - JOUR
KW - FBS-free
KW - HeLa cells
KW - animal free research
KW - chemically defined media
KW - fetal bovine serum
AU - Alexandra Nessar
AU - Viola Röhrs
AU - Mathias Ziersch
AU - Ahmed S. M. Ali
AU - Julia Moradi
AU - Anke Kurreck
AU - Johanna Berg
AU - Jens Kurreck
AB - The widespread use of fetal bovine serum (FBS) and other animal-derived reagents in cell culture raises ethical concerns and scientific limitations, including batch variability and undefined composition. To address these challenges and promote the adoption of xeno-free, human-relevant methods, we developed a graduate-level laboratory course based on animal-free workflows. The curriculum covers key molecular and cell biology techniques: HeLa cell culture and passaging, transfection, RNA interference (RNAi), quantitative RT-PCR (qRT-PCR), dual-luciferase assays, and Western blotting, using reagents selected to exclude animal-derived components. A chemically defined medium (CDM) was optimized for robust HeLa cell growth in the absence of FBS, and recombinant TrypLE was implemented as a substitute for porcine trypsin. Validated non-animal-derived antibodies are also introduced. The course has been successfully piloted and provides a scalable, ethical framework for modern bioscience education. A detailed, open-access protocol enables replication and dissemination. This initiative equips students with practical skills and educational foundation in animal-free methodologies, supporting a shift toward reproducible and ethically responsible biomedical research.
BT - Frontiers in Toxicology
DA - 2025-10-01
DO - 10.3389/ftox.2025.1670513
LA - English
N2 - The widespread use of fetal bovine serum (FBS) and other animal-derived reagents in cell culture raises ethical concerns and scientific limitations, including batch variability and undefined composition. To address these challenges and promote the adoption of xeno-free, human-relevant methods, we developed a graduate-level laboratory course based on animal-free workflows. The curriculum covers key molecular and cell biology techniques: HeLa cell culture and passaging, transfection, RNA interference (RNAi), quantitative RT-PCR (qRT-PCR), dual-luciferase assays, and Western blotting, using reagents selected to exclude animal-derived components. A chemically defined medium (CDM) was optimized for robust HeLa cell growth in the absence of FBS, and recombinant TrypLE was implemented as a substitute for porcine trypsin. Validated non-animal-derived antibodies are also introduced. The course has been successfully piloted and provides a scalable, ethical framework for modern bioscience education. A detailed, open-access protocol enables replication and dissemination. This initiative equips students with practical skills and educational foundation in animal-free methodologies, supporting a shift toward reproducible and ethically responsible biomedical research.
PY - 2025
ST - Promoting ethical and reproducible cell culture
T2 - Frontiers in Toxicology
TI - Promoting ethical and reproducible cell culture: implementing animal-free alternatives to teaching in molecular and cell biology
UR - https://www.frontiersin.org/journals/toxicology/articles/10.3389/ftox.2025.1670513/full
VL - 7
Y2 - 2025-10-01
SN - 2673-3080
ER -