Citations to this article

Old dog, new tricks: extracellular domain arginine methylation regulates EGFR function
David M. Epstein, Elizabeth Buck
David M. Epstein, Elizabeth Buck
Published November 16, 2015
Citation Information: J Clin Invest. 2015;125(12):4320-4322. https://doi.org/10.1172/JCI85001.
View: Text | PDF
Commentary Article has an altmetric score of 1

Old dog, new tricks: extracellular domain arginine methylation regulates EGFR function

Abstract

Conventional wisdom holds that methylation of RTKs should be restricted to intracellular sites. Alterations — such as deletion, mutation, and proteolytic cleavage events — to the extracellular ligand binding and dimer interface domains of the EGFR can induce EGFR dimer formation, leading to aberrant receptor activation and oncogenic activity. Recently, the extracellular domain of EGFR was also shown to be methylated, suggesting that posttranslational protein methylation events directed to the extracellular dimer interface provide another mechanism to regulate the EGFR activation state by modulating receptor dimerization. Critically, these methylation events abrogate response to conformation-specific therapeutic antibodies such as cetuximab. In this issue of the JCI, Liao et al. investigate the role of protein arginine methyltransferase I (PRMT1) in regulating EGFR function in colorectal cancer. The authors provide evidence that methylation of R198 and R200 within the dimer interface enhances growth factor ligand binding and cetuximab resistance through induction and stabilization of the active EGFR dimer conformation. Delineation of these and other subtleties involved in oncogenic RTK activation and their response to targeted therapies should facilitate the development of improved antibody-based treatments.

Authors

David M. Epstein, Elizabeth Buck

×

Total citations by year

Year: 2025 2023 2021 2019 2018 Total
Citations: 1 2 3 1 1 8
Citation information

Citations to this article (8)

Title and authors Publication Year
PRMT1-mediated modification of H4R3me2a promotes liver cancer progression by enhancing the transcriptional activity of SOX18
Ling J, Wang S, Yi C, Zheng X, Zhou Y, Lou S, Li H, Yu R, Wu W, Wu Q, Sun X, Lv Y, Zhu H, Li Q, Jin H, Chen J, Zheng J, Qin W 		Hepatology Communications 2025
Structural arrangement of the active back-to-back dimer in N-glycosylated ErbB receptors is regulated by heterodimerization.
Mashayekh-Poul R, Azimzadeh-Irani M, Masoomi-Nomandan SZ 		Molecular Biology Research Communications 2023
Therapeutic Advantage of Targeting PRMT5 in Combination with Chemotherapies or EGFR/HER2 Inhibitors in Triple-Negative Breast Cancers
Dakroub R, Huard S, Hajj-Younes Y, Suresh S, Badran B, Fayyad-Kazan H, Dubois T 		Breast cancer : targets and therapy 2023
Inhibition of Arginine Methylation Impairs Platelet Function
AJ Marsden, DR Riley, A Barry, JS Khalil, B Guinn, NT Kemp, F Rivero, P Beltran-Alvarez 		2021
PRMT1-mediated H4R3me2a recruits SMARCA4 to promote colorectal cancer progression by enhancing EGFR signaling
B Yao, T Gui, X Zeng, Y Deng, Z Wang, Y Wang, D Yang, Q Li, P Xu, R Hu, X Li, B Chen, J Wang, K Zen, H Li, MJ Davis, MJ Herold, HF Pan, ZW Jiang, DC Huang, M Liu, J Ju, Q Zhao 		Genome Medicine 2021
The mechanisms of colorectal cancer cell mesenchymal-epithelial transition induced by hepatocyte exosome-derived miR-203a-3p
H Xu, Q Lan, Y Huang, Y Zhang, Y Zeng, P Su, Z Chu, W Lai, Z Chu 		BMC Cancer 2021
Targeting the insulin-like growth factor-1 receptor in MTAP-deficient renal cell carcinoma
J Xu, WH Chang, LW Fong, RH Weiss, SL Yu, CH Chen 		Signal Transduction and Targeted Therapy 2019
A homologous mapping method for three-dimensional reconstruction of protein networks reveals disease-associated mutations
SH Huang, YS Lo, YC Luo, YY Tseng, JM Yang 		BMC Systems Biology 2018

Advertisement