Abstract
The NTERA2 cl D1 (NT2) cell line, derived from human teratocarcinoma, exhibits similar properties as embryonic stem (ES) cells or very early neuroepitheial progenitors. NT2 cells can be induced to become postmitotic central nervous system neurons (NT2N) with retinoic acid. Although neurons derived from pluripotent cells, such as NT2N, have been characterized for their neurotransmitter phenotypes, their potential suitability as a donor source for neural transplantation also depends on their ability to respond to localized environmental cues from a specific region of the CNS. Therefore, our study aimed to characterize the regional transcription factors that define the rostocaudal and dorsoventral identity of NT2N derived from a monolayer differentiation paradigm using quantitative PCR (qPCR). Purified NT2N mainly expressed both GABAergic and glutamatergic phenotypes and were electrically active but did not form functional synapses. The presence of immature astrocytes and possible radial glial cells was noted. The NT2N expressed a regional transcription factor code consistent with forebrain, hindbrain and spinal cord neural progenitors but showed minimal expression of midbrain phenotypes. In the dorsoventral plane NT2N expressed both dorsal and ventral neural progenitors. Of major interest was that even under the influence of retinoic acid, a known caudalization factor, the NT2N population maintained a rostral phenotype subpopulation which expressed cortical regional transcription factors. It is proposed that understanding the regional differentiation bias of neurons derived from pluripotent stem cells will facilitate their successful integration into existing neuronal networks within the CNS.
Highlights
The field of human embryonic stem cell research, young, holds a potential for advancing our understanding of the mechanisms and pathways of human development and may provide an unlimited source of human neuronal cells for basic and applied research, therapeutic drug testing, and tissue repair or replacement
In order to assess that the characteristic morphological properties were consistent with their immunocytochemical properties NTERA-2 cl. D1 (NT2) cells and NT2 neurons (NT2N) underwent fluorescence staining with antibodies specific for the undifferentiated progenitor (SSEA3 and nestin), neuron (b-tubulin III, Tau, microtubules associated protein 2 (MAP2), and synapsin 1), astroglial (GFAP and S-100b), or oligodendrocyte (CNPase) phenotypes
Due to the ability of NT2 cells to proliferate in the absence of feeder cells or the addition of growth factors we examined the expression of fibroblast growth factor 2 (FGF2; b-FGF) and epidermal growth factor (EGF) expression
Summary
The field of human embryonic stem (hES) cell research, young, holds a potential for advancing our understanding of the mechanisms and pathways of human development and may provide an unlimited source of human neuronal cells for basic and applied research, therapeutic drug testing, and tissue repair or replacement. Our current understanding and use of hES cells for differentiation into neuron and glial subtypes is limited by the legal, ethical, and political considerations imposed on the use of these cells as well as the technical aspects of culturing these cells Another source of human pluripotent cells is embryonic carcinoma (EC) cells derived from human male germ cell tumors. The NT2 neurons (NT2N) derived from NT2 cells are post-mitotic polarized cells that express neurofilaments, generate action potentials and calcium spikes, express, release, and respond to neurotransmitters They have been used as cell grafts for a rat stroke model where they mature and display functional integration as well as in phase 1 and 2 clinical trials with stable stroke patients [2,8,9,10,11,12,13,14,15]. NT2 cells have been reported to be capable of generating all three germ layers when differentiation was induced by in vitro generation of embryoid bodies [5]
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