My company’s STEMEZTM hN2 Primary Human Neuron Discovery Kits have been a frequent topic on “News Behind the Neuroscience News”. My friends at Aruna Biomedical continue to broaden the capabilities of these Kits based on customer feedback.
I am seeing increasing demand for these cells as these capabilities are published. Here’s the latest:
A. Young, D.W. Machacek, S.K. Dhara, P.R. MacLeish, M. Benveniste, M.C. Dodla, C.D. Sturkie and S.L. Stice. Ion channels and ionotrophic receptors in a human embryonic stem cell derived neural progenitors. doi:10.1016/j.neuroscience.2011.04.039. Markers used:…mouse nonoclonal anti nestin (neuromics), mouse monoclonal anti tuj-1 (neuromics)…
Abstract: Human neural progenitor cells differentiated from human embryonic stem cells offer a potential cell source for studying neurodegenerative diseases and for drug screening assays. Previously, we demonstrated that human neural progenitors could be maintained in a proliferative state with the addition of leukemia inhibitory factor and basic fibroblast growth factor. Here we demonstrate that 96 h after removal of basic fibroblast growth factor the neural progenitor cell culture was significantly altered and cell replication halted. Fourteen days after the removal of basic fibroblast growth factor, most cells expressed microtubule-associated protein 2 and TUJ1, markers characterizing a post-mitotic neuronal phenotype as well as neural developmental markers Cdh2 and Gbx2. Real-time PCR was performed to determine the ionotrophic receptor subunit expression profile. Differentiated neural progenitors express subunits of glutamatergic, GABAergic, nicotinic, purinergic and transient receptor potential receptors. In addition, sodium and calcium channel subunits were also expressed. Functionally, virtually all the hNP cells tested under whole-cell voltage clamp exhibited delayed rectifier potassium channel currents and some differentiated cells exhibited tetrodotoxin-sensitive, voltage-dependent sodium channel current. Action potentials could also be elicited by current injection under whole-cell current clamp in a minority of cells. These results indicate that removing basic fibroblast growth factor from the neural progenitor cell cultures leads to a post-mitotic state, and has the capability to produce excitable cells that can generate action potentials, a landmark characteristic of a neuronal phenotype. This is the first report of an efficient and simple means of generating human neuronal cells for ionotrophic receptor assays and ultimately for electrically active human neural cell assays for drug discovery.
I will continue to post updates here.