@article{ART002543083,
author={한수지 and Hyemi Shin and Jin-Ku Lee and Zhaoqi Liu and Raul Rabadan and Jeongwu Lee and Jihye Shin and Cheolju Lee and Heekyoung Yang and Donggeon Kim and Sung Heon Kim and Jooyeon Kim and Jeong-Woo Oh and Doo-Sik Kong and Jung-Il Le and Ho Jun Seol and Jung Won Choi and Hyun Ju Kang and Do-Hyun Nam},
title={Secretome analysis of patient-derived GBM tumor spheres identifies midkine as a potent therapeutic target},
journal={Experimental and Molecular Medicine},
issn={1226-3613},
year={2019},
volume={51},
pages={1-11},
doi={10.1038/s12276-019-0351-y}
}

TY - JOUR
AU - 한수지
AU - Hyemi Shin
AU - Jin-Ku Lee
AU - Zhaoqi Liu
AU - Raul Rabadan
AU - Jeongwu Lee
AU - Jihye Shin
AU - Cheolju Lee
AU - Heekyoung Yang
AU - Donggeon Kim
AU - Sung Heon Kim
AU - Jooyeon Kim
AU - Jeong-Woo Oh
AU - Doo-Sik Kong
AU - Jung-Il Le
AU - Ho Jun Seol
AU - Jung Won Choi
AU - Hyun Ju Kang
AU - Do-Hyun Nam
TI - Secretome analysis of patient-derived GBM tumor spheres identifies midkine as a potent therapeutic target
T2 - Experimental and Molecular Medicine
JO - Experimental and Molecular Medicine
PY - 2019
VL - 51
IS - null
PB - 생화학분자생물학회
SP - 1
EP - 11
SN - 1226-3613
AB - Glioblastoma (GBM) is the most lethal primary brain tumor with few treatment options. The survival of gliomainitiating cells (GICs) is one of the major factors contributing to treatment failure. GICs frequently produce and respond to their own growth factors that support cell proliferation and survival. In this study, we aimed to identify critical autocrine factors mediating GIC survival and to evaluate the anti-GBM effect of antagonizing these factors. Proteomic analysis was performed using conditioned media from two different patient-derived GBM tumor spheres under a growth factor-depleted status. Then, the antitumor effects of inhibiting an identified autocrine factor were evaluated by bioinformatic analysis and molecular validation. Proteins secreted by sphere-forming GICs promote cell proliferation/survival and detoxify reactive oxygen species (ROS). Among these proteins, we focused on midkine (MDK) as a clinically significant and pathologically relevant autocrine factor. Antagonizing MDK reduced the survival of GBM tumor spheres through the promotion of cell cycle arrest and the consequent apoptotic cell death caused by oxidative stress-induced DNA damage. We also identified PCBP4, a novel molecular predictor of resistance to anti-MDK treatment. Collectively, our results indicate that MDK inhibition is an important therapeutic option by suppressing GIC survival through the induction of ROS-mediated cell cycle arrest and apoptosis.
KW -
DO - 10.1038/s12276-019-0351-y
ER -

한수지, Hyemi Shin, Jin-Ku Lee, Zhaoqi Liu, Raul Rabadan, Jeongwu Lee, Jihye Shin, Cheolju Lee, Heekyoung Yang, Donggeon Kim, Sung Heon Kim, Jooyeon Kim, Jeong-Woo Oh, Doo-Sik Kong, Jung-Il Le, Ho Jun Seol, Jung Won Choi, Hyun Ju Kang and Do-Hyun Nam. 2019, "Secretome analysis of patient-derived GBM tumor spheres identifies midkine as a potent therapeutic target", Experimental and Molecular Medicine, vol.51, pp.1-11. Available from: doi:10.1038/s12276-019-0351-y

한수지, Hyemi Shin, Jin-Ku Lee, Zhaoqi Liu, Raul Rabadan, Jeongwu Lee, Jihye Shin, Cheolju Lee, Heekyoung Yang, Donggeon Kim, Sung Heon Kim, Jooyeon Kim, Jeong-Woo Oh, Doo-Sik Kong, Jung-Il Le, Ho Jun Seol, Jung Won Choi, Hyun Ju Kang, Do-Hyun Nam "Secretome analysis of patient-derived GBM tumor spheres identifies midkine as a potent therapeutic target" Experimental and Molecular Medicine 51 pp.1-11 (2019) : 1.

한수지, Hyemi Shin, Jin-Ku Lee, Zhaoqi Liu, Raul Rabadan, Jeongwu Lee, Jihye Shin, Cheolju Lee, Heekyoung Yang, Donggeon Kim, Sung Heon Kim, Jooyeon Kim, Jeong-Woo Oh, Doo-Sik Kong, Jung-Il Le, Ho Jun Seol, Jung Won Choi, Hyun Ju Kang, Do-Hyun Nam. Secretome analysis of patient-derived GBM tumor spheres identifies midkine as a potent therapeutic target. 2019; 51 1-11. Available from: doi:10.1038/s12276-019-0351-y

한수지, Hyemi Shin, Jin-Ku Lee, Zhaoqi Liu, Raul Rabadan, Jeongwu Lee, Jihye Shin, Cheolju Lee, Heekyoung Yang, Donggeon Kim, Sung Heon Kim, Jooyeon Kim, Jeong-Woo Oh, Doo-Sik Kong, Jung-Il Le, Ho Jun Seol, Jung Won Choi, Hyun Ju Kang and Do-Hyun Nam. "Secretome analysis of patient-derived GBM tumor spheres identifies midkine as a potent therapeutic target" Experimental and Molecular Medicine 51(2019) : 1-11.doi: 10.1038/s12276-019-0351-y

한수지; Hyemi Shin; Jin-Ku Lee; Zhaoqi Liu; Raul Rabadan; Jeongwu Lee; Jihye Shin; Cheolju Lee; Heekyoung Yang; Donggeon Kim; Sung Heon Kim; Jooyeon Kim; Jeong-Woo Oh; Doo-Sik Kong; Jung-Il Le; Ho Jun Seol; Jung Won Choi; Hyun Ju Kang; Do-Hyun Nam. Secretome analysis of patient-derived GBM tumor spheres identifies midkine as a potent therapeutic target. Experimental and Molecular Medicine, 51, 1-11. doi: 10.1038/s12276-019-0351-y

한수지; Hyemi Shin; Jin-Ku Lee; Zhaoqi Liu; Raul Rabadan; Jeongwu Lee; Jihye Shin; Cheolju Lee; Heekyoung Yang; Donggeon Kim; Sung Heon Kim; Jooyeon Kim; Jeong-Woo Oh; Doo-Sik Kong; Jung-Il Le; Ho Jun Seol; Jung Won Choi; Hyun Ju Kang; Do-Hyun Nam. Secretome analysis of patient-derived GBM tumor spheres identifies midkine as a potent therapeutic target. Experimental and Molecular Medicine. 2019; 51 1-11. doi: 10.1038/s12276-019-0351-y

한수지, Hyemi Shin, Jin-Ku Lee, Zhaoqi Liu, Raul Rabadan, Jeongwu Lee, Jihye Shin, Cheolju Lee, Heekyoung Yang, Donggeon Kim, Sung Heon Kim, Jooyeon Kim, Jeong-Woo Oh, Doo-Sik Kong, Jung-Il Le, Ho Jun Seol, Jung Won Choi, Hyun Ju Kang, Do-Hyun Nam. Secretome analysis of patient-derived GBM tumor spheres identifies midkine as a potent therapeutic target. 2019; 51 1-11. Available from: doi:10.1038/s12276-019-0351-y

한수지, Hyemi Shin, Jin-Ku Lee, Zhaoqi Liu, Raul Rabadan, Jeongwu Lee, Jihye Shin, Cheolju Lee, Heekyoung Yang, Donggeon Kim, Sung Heon Kim, Jooyeon Kim, Jeong-Woo Oh, Doo-Sik Kong, Jung-Il Le, Ho Jun Seol, Jung Won Choi, Hyun Ju Kang and Do-Hyun Nam. "Secretome analysis of patient-derived GBM tumor spheres identifies midkine as a potent therapeutic target" Experimental and Molecular Medicine 51(2019) : 1-11.doi: 10.1038/s12276-019-0351-y