axoCells Human iPSC-Derived Neural Stem Cells (male donor)

Product Description

ax0018 Neural Stem Cells are derived from iPSCs generated from a healthy 74-year-old male donor's pulmonary fibroblasts. They can be further differentiated to generate cortical excitatory neurons or striatal neurons.

• Derived from human iPSCs
• Express the typical markers of cerebral cortical neural stem cells (PAX6, FOXG1 and nestin)
• Spontaneously form polarized neural tube-like rosette structures when plated as a monolayer in culture
• Can be differentiated into high-quality cortical excitatory neurons and striatal neurons

axoCells human iPSC-Derived Neural Stem Cells (NSCs) are derived from integration-free, episomally reprogrammed, induced pluripotent stem cells (iPSCs) under fully defined neural induction conditions. AxoCells NSCs are easy to differentiate to neurons or mixed neural cell types, following our protocols and using our tailored media and reagent bundles.

We provide Neural Maintenance Medium, BDNF and GDNF growth factors and NeurOne supplements to drive differentiation to cortical excitatory neurons, as well as Neural Plating Medium and optimized SureBond-XF coating, all as individual reagents or in kit format with the cells.

Our cortical excitatory neurons have been specifically developed for use in mono-, co- and tri-culture models of neurodegenerative disease and for drug discovery with microglia, astrocytes and inhibitory interneurons (ax0662 or ax0667).

We also provide  Striatal Neuron Medium,  BDNF and GDNF growth factors and optimized SureBond-XF coating for differentiation of NSCs to striatial neurons as individual products or in kit format with cells.

The NSCs express typical markers of cerebral cortical neural stem and progenitor cells such as PAX6, FOXG1 and nestin, and spontaneously form polarized neural tube-like rosette structures when plated as a monolayer in culture. Additionally, axoCells NSCs are capable of generating a spectrum of cerebral cortical excitatory and striatal neurons that are electrically active and have the ability to form functional synapses and circuits in vitro. After thawing and plating, the neural stem cells terminally differentiate to acquire mature electrophysiological properties, and form functional synaptic networks over a period of ~ 20 days. Neurons derived from axoCells NSCs can be maintained in culture long-term (>1 year).  

Supporting Data

Figure 1: Axol Human iPSC-Derived Neural Stem Cells