@article{ART002716152,
author={Shin Hye Young and Kyung-Seok Han and 박형우 and 홍연화 and 김요나 and 문효은 and 박광우 and 박혜란 and C. Justin Lee and Kiyoung Lee and Sang Jeong Kim and Man Seung Heo and 박성혜 and 김동규 and 백선하},
title={Tumor Spheroids of an Aggressive Form of Central Neurocytoma Have Transit-Amplifying Progenitor Characteristics with Enhanced EGFR and Tumor Stem Cell Signaling},
journal={Experimental Neurobiology},
issn={1226-2560},
year={2021},
volume={30},
number={2},
pages={120-143},
doi={10.5607/en21004}
}

TY - JOUR
AU - Shin Hye Young
AU - Kyung-Seok Han
AU - 박형우
AU - 홍연화
AU - 김요나
AU - 문효은
AU - 박광우
AU - 박혜란
AU - C. Justin Lee
AU - Kiyoung Lee
AU - Sang Jeong Kim
AU - Man Seung Heo
AU - 박성혜
AU - 김동규
AU - 백선하
TI - Tumor Spheroids of an Aggressive Form of Central Neurocytoma Have Transit-Amplifying Progenitor Characteristics with Enhanced EGFR and Tumor Stem Cell Signaling
T2 - Experimental Neurobiology
JO - Experimental Neurobiology
PY - 2021
VL - 30
IS - 2
PB - 한국뇌신경과학회
SP - 120
EP - 143
SN - 1226-2560
AB - Central neurocytoma (CN) has been known as a benign neuronal tumor. In rare cases, CN undergoes malignant transformation to glioblastomas (GBM). Here we examined its cellular origin by characterizing differentiation potential and gene expression of CN-spheroids. First, we demonstrate that both CN tissue and cultured primary cells recapitulate the hierarchal cellular composition of subventricular zone (SVZ), which is comprised of neural stem cells (NSCs), transit amplifying progenitors (TAPs), and neuroblasts. We then derived spheroids from CN which displayed EGFR+/ MASH+ TAP and BLBP+ radial glial cell (RGC) characteristic, and mitotic neurogenesis and gliogenesis by single spheroids were observed with cycling multipotential cells. CN-spheroids expressed increased levels of pluripotency and tumor stem cell genes such as KLF4 and TPD5L1, when compared to their differentiated cells and human NSCs. Importantly, Gene Set Enrichment Analysis showed that gene sets of GBM-Spheroids, EGFR Signaling, and Packaging of Telomere Ends are enriched in CN-spheroids in comparison with their differentiated cells. We speculate that CN tumor stem cells have TAP and RGC characteristics, and upregulation of EGFR signaling as well as downregulation of eph-ephrin signaling have critical roles in tumorigenesis of CN. And their ephemeral nature of TAPs destined to neuroblasts, might reflect benign nature of CN.
KW - Central neurocytoma, Tumor spheroids, Subventricular zone, Neural stem cell, Transit-amplifying cells, Radial glia cells, Gene Set Enrichment Analysis
DO - 10.5607/en21004
ER -

Shin Hye Young, Kyung-Seok Han, 박형우, 홍연화, 김요나, 문효은, 박광우, 박혜란, C. Justin Lee, Kiyoung Lee , Sang Jeong Kim , Man Seung Heo , 박성혜, 김동규 and 백선하. 2021, "Tumor Spheroids of an Aggressive Form of Central Neurocytoma Have Transit-Amplifying Progenitor Characteristics with Enhanced EGFR and Tumor Stem Cell Signaling", Experimental Neurobiology, vol.30, no.2 pp.120-143. Available from: doi:10.5607/en21004

Shin Hye Young, Kyung-Seok Han, 박형우, 홍연화, 김요나, 문효은, 박광우, 박혜란, C. Justin Lee, Kiyoung Lee , Sang Jeong Kim , Man Seung Heo , 박성혜, 김동규, 백선하 "Tumor Spheroids of an Aggressive Form of Central Neurocytoma Have Transit-Amplifying Progenitor Characteristics with Enhanced EGFR and Tumor Stem Cell Signaling" Experimental Neurobiology 30.2 pp.120-143 (2021) : 120.

Shin Hye Young, Kyung-Seok Han, 박형우, 홍연화, 김요나, 문효은, 박광우, 박혜란, C. Justin Lee, Kiyoung Lee , Sang Jeong Kim , Man Seung Heo , 박성혜, 김동규, 백선하. Tumor Spheroids of an Aggressive Form of Central Neurocytoma Have Transit-Amplifying Progenitor Characteristics with Enhanced EGFR and Tumor Stem Cell Signaling. 2021; 30(2), 120-143. Available from: doi:10.5607/en21004

Shin Hye Young, Kyung-Seok Han, 박형우, 홍연화, 김요나, 문효은, 박광우, 박혜란, C. Justin Lee, Kiyoung Lee , Sang Jeong Kim , Man Seung Heo , 박성혜, 김동규 and 백선하. "Tumor Spheroids of an Aggressive Form of Central Neurocytoma Have Transit-Amplifying Progenitor Characteristics with Enhanced EGFR and Tumor Stem Cell Signaling" Experimental Neurobiology 30, no.2 (2021) : 120-143.doi: 10.5607/en21004

Shin Hye Young; Kyung-Seok Han; 박형우; 홍연화; 김요나; 문효은; 박광우; 박혜란; C. Justin Lee; Kiyoung Lee ; Sang Jeong Kim ; Man Seung Heo ; 박성혜; 김동규; 백선하. Tumor Spheroids of an Aggressive Form of Central Neurocytoma Have Transit-Amplifying Progenitor Characteristics with Enhanced EGFR and Tumor Stem Cell Signaling. Experimental Neurobiology, 30(2), 120-143. doi: 10.5607/en21004

Shin Hye Young; Kyung-Seok Han; 박형우; 홍연화; 김요나; 문효은; 박광우; 박혜란; C. Justin Lee; Kiyoung Lee ; Sang Jeong Kim ; Man Seung Heo ; 박성혜; 김동규; 백선하. Tumor Spheroids of an Aggressive Form of Central Neurocytoma Have Transit-Amplifying Progenitor Characteristics with Enhanced EGFR and Tumor Stem Cell Signaling. Experimental Neurobiology. 2021; 30(2) 120-143. doi: 10.5607/en21004

Shin Hye Young, Kyung-Seok Han, 박형우, 홍연화, 김요나, 문효은, 박광우, 박혜란, C. Justin Lee, Kiyoung Lee , Sang Jeong Kim , Man Seung Heo , 박성혜, 김동규, 백선하. Tumor Spheroids of an Aggressive Form of Central Neurocytoma Have Transit-Amplifying Progenitor Characteristics with Enhanced EGFR and Tumor Stem Cell Signaling. 2021; 30(2), 120-143. Available from: doi:10.5607/en21004

Shin Hye Young, Kyung-Seok Han, 박형우, 홍연화, 김요나, 문효은, 박광우, 박혜란, C. Justin Lee, Kiyoung Lee , Sang Jeong Kim , Man Seung Heo , 박성혜, 김동규 and 백선하. "Tumor Spheroids of an Aggressive Form of Central Neurocytoma Have Transit-Amplifying Progenitor Characteristics with Enhanced EGFR and Tumor Stem Cell Signaling" Experimental Neurobiology 30, no.2 (2021) : 120-143.doi: 10.5607/en21004