Properties of human central nervous system neurons in a glia-depleted (isolated) culture system.

Soo Yuen Leong, Andrew Kaplan, Li-Chun Wang, Guillermina Almazan, Alyson E Fournier, Jack Antel

Index: J. Neurosci. Methods 253 , 142-50, (2015)

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Abstract

Current methods for studying human neurons depend on a feeder layer of astroglia supplemented with animal serum to support the growing neurons. These requirements undermine many of the advantages provided by in vitro cell culture approaches when compared with more complex in vivo techniques.Here, we identified a reliable marker (MHCI) that allows for direct isolation of primary neurons from fetal human brain. We utilized a magnetic labeling and isolation technique to separate neurons from other neural cells. We established a defined condition, omitting the astroglial supports that could maintain the human neurons for varying amounts of time.We showed that the new method significantly improved the purity of human neurons in culture without the need for further chemical/mechanical enrichment. We demonstrated the suitability of these neurons for functional studies including Rho-kinase dependent regulation of neurite outgrowth and ensheathment in co-cultures with oligodendrocyte progenitor cells derived from fetal human brain.The accountability for neuron-only seeding and the controllable density allows for better neuronal maturation and better visualization of the different neuronal compartments. The higher purity culture constitutes an effective system to study and screen for compounds that impact neuron biology without potential confounding effects from glial crowding.High purity human neurons generated using the improved method will enable enhanced reliability in the discovery and development of drugs with neuroregenerative and neuroprotective activity.Copyright © 2015 Elsevier B.V. All rights reserved.