NTera 2 Cells: a Human Cell Line Which Displays Characteristics Expected of a Human Committed Neuronal Progenitor Cell
Overview
Authors
Affiliations
We have identified a human cell line with a phenotype resembling committed CNS neuronal precursor cells. NTera 2/cl.D1 (NT2/D1) cells expressed nestin and vimentin, intermediate filament (IF) proteins expressed in neuroepithelial precursor cells, as well as MAP1b, a microtubule-associated protein (MAP) expressed in human neuroepithelium. NT2/D1 cells also expressed the cell adhesion molecules NCAM and N-cadherin which are thought to be important in cell-cell interactions within the neuroepithelium. These NT2/D1 cells also expressed small amounts of NF-L, alpha-internexin, NF-M, and MAP2c, indicating that they are committed to a neuronal fate. Previous studies have shown that, following RA treatment, a proportion of NT2/D1 cells terminally differentiate into neurons and that this occurs via an asymmetric stem cell mode of differentiation. In light of the identification of the neuroepithelial phenotype of NT2/D1 cells we decided to examine more closely the relationship of in vitro neurogenesis in NT2/D1 cells, during RA treatment to that of neurons in vivo. Three days after RA treatment, islands of NT2/D1 cells showed increased expression of neurofilament proteins and increased phosphorylation of NF-M. By 10-14 days, these cells began to resemble neurons morphologically, i.e., with rounded cell bodies and processes. These neuronal cells were clustered into clumps which rested on top of a layer of progenitor cells. In this upper layer, the neurons began to express MAP2b and tau and extinguished their expression of nestin. Recently, we developed a method for obtaining pure cultures of neurons from RA treated NT2/D1 cells. The phenotype of these postmitotic neurons is clearly dissociated from that of the untreated NT2/D1 cells. Given the data obtained in this study and the characterization of the neurons derived from NT2/D1 cells, we propose that NT2/D1 cells are a committed human neuronal precursor cell line which retains some stem cell characteristics and is capable only of terminal differentiation into neurons.
Trang K, Pahl M, Pippin J, Su C, Littleton S, Sharma P Elife. 2025; 13.
PMID: 39813287 PMC: 11735026. DOI: 10.7554/eLife.95411.
Stankovic S, Lazic A, Parezanovic M, Stevanovic M, Pavlovic S, Stojiljkovic M Int J Mol Sci. 2024; 25(18).
PMID: 39337507 PMC: 11431966. DOI: 10.3390/ijms251810019.
PLCβ1 by-passes early growth response -1 to induce the differentiation of neuronal cells.
Gonzalez-Burguera I, Lin G, Lopez de Jesus M, Saumell-Esnaola M, Barrondo S, Garcia Del Cano G Cell Death Discov. 2024; 10(1):250.
PMID: 38789419 PMC: 11126630. DOI: 10.1038/s41420-024-02009-z.
Devadoss D, Akkaoui J, Nair M, Lakshmana M Front Mol Neurosci. 2024; 17:1365752.
PMID: 38476461 PMC: 10929014. DOI: 10.3389/fnmol.2024.1365752.
Liguori G, Kralj-Iglic V Cancers (Basel). 2023; 15(18).
PMID: 37760395 PMC: 10648223. DOI: 10.3390/cancers15184425.