Immortalised SCN neurons from adult mice, ideal for in vitro circadian rhythm research and CNS disease modelling including stress, metabolism, and neuroendocrine regulation.

Immortalised glial cell lines from adult mouse brain regions, ideal for in vitro CNS research including obesity, neurodegeneration, and glial-specific therapeutic development.

hCMEC/D3 cells model the human blood-brain barrier, ideal for drug transport studies and investigating endothelial responses to pathogens and inflammation.

Immortalised embryonic mouse hippocampal neurons with high transfection efficiency, ideal for CNS disease research, drug discovery, and studies of metabolism, stress, and reproduction.

Immortalised hypothalamic and pituitary neurons expressing POMC-driven GFP, ideal for CNS, metabolic, and endocrine research, including studies of obesity, stress, and hormone regulation.

HEY human ovarian carcinoma cell line used for in vitro cancer research, drug resistance studies, and modelling tumour growth and response to chemotherapeutic agents like cisplatin.

MO3.13 hybrid cell line expressing key oligodendrocyte markers, ideal for studying myelination, glial gene expression, and dysmyelinating disease mechanisms in vitro.

NSC-34 hybrid cell lines modelling motor neurons, ideal for neurotoxicity studies, ion channel research, and screening compounds affecting motor neuron function and degeneration.

Cell lines derived from hypothalamic tissue, supporting neuroendocrine and metabolic research.