PRMT1-mediated methylation of the EGF receptor regulates signaling and cetuximab response
Hsin-Wei Liao, … , Scott Kopetz, Mien-Chie Hung
Hsin-Wei Liao, … , Scott Kopetz, Mien-Chie Hung
Published November 16, 2015
Citation Information: J Clin Invest. 2015;125(12):4529-4543. https://doi.org/10.1172/JCI82826.
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Research Article Cell biology Oncology

PRMT1-mediated methylation of the EGF receptor regulates signaling and cetuximab response

Abstract

Posttranslational modifications to the intracellular domain of the EGFR are known to regulate EGFR functions; however, modifications to the extracellular domain and their effects remain relatively unexplored. Here, we determined that methylation at R198 and R200 of the EGFR extracellular domain by protein arginine methyltransferase 1 (PRMT1) enhances binding to EGF and subsequent receptor dimerization and signaling activation. In a mouse orthotopic colorectal cancer xenograft model, expression of a methylation-defective EGFR reduced tumor growth. Moreover, increased EGFR methylation sustained signaling activation and cell proliferation in the presence of the therapeutic EGFR monoclonal antibody cetuximab. In colorectal cancer patients, EGFR methylation level also correlated with a higher recurrence rate after cetuximab treatment and reduced overall survival. Together, these data indicate that R198/R200 methylation of the EGFR plays an important role in regulating EGFR functionality and resistance to cetuximab treatment.

Authors

Hsin-Wei Liao, Jung-Mao Hsu, Weiya Xia, Hung-Ling Wang, Ying-Nai Wang, Wei-Chao Chang, Stefan T. Arold, Chao-Kai Chou, Pei-Hsiang Tsou, Hirohito Yamaguchi, Yueh-Fu Fang, Hong-Jen Lee, Heng-Huan Lee, Shyh-Kuan Tai, Mhu-Hwa Yang, Maria P. Morelli, Malabika Sen, John E. Ladbury, Chung-Hsuan Chen, Jennifer R. Grandis, Scott Kopetz, Mien-Chie Hung

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Figure 2

PRMT1 interacts with and methylates EGFR before it is transported to the cell membrane.

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PRMT1 interacts with and methylates EGFR before it is transported to the...
(A) Dot blot showing specificity of EGFR me-R198/200 Ab. H3R4, Histone H4 arginine 3 asymmetric dimethylated peptide; asym di-me, EGFR peptides asymmetric dimethylation on indicated sites; sym di-me, EGFR symmetric dimethylated R198/200 peptide; mono-me, EGFR mono methylated R198/200 peptide; scrambled, peptide with the same amino acid composition as the EGFR R198/200 peptide with the amino acids scrambled while maintaining the position of the 2 methyl-arginines. (B) Immunoblots comparing EGFR methylation level in SKCO1 cells exogenously expressing PRMT1 (left), PRMT1 shRNA (right), or control vector with EGFR methylation-specific antibody, me-R198/200 Ab. (C) Top: Immunoblots of indicated proteins of SKCO1 cells expressing control vector or PRMT1 shRNA in the absence or presence of tunicamycin (2 μM, 24 hr) or AMI-1 (100 μM). Bottom: In vitro methylation assay showing methylation signal of GST-GAR after incubation with purified GST-tagged PRMT1 in the absence or presence of AMI-1 (100 μM). Methylation signals were examined by fluorography. (D) Immunoblots of indicated proteins after ER isolation of SKCO1 cells expressing control vector or PRMT1 shRNA. Calnexin, ER marker; lamin b1, nuclear marker; HSP60, mitochondrial marker; GAPDH, cytosolic protein. (E) Reciprocal coimmunoprecipitation of SKCO1 cells with the indicated antibodies. (F) Duolink assay of endogenous EGFR and PRMT1 in SKCO1 cells. Red spots represent the interaction between PRMT1 and EGFR. Scale bars: 10 μm. Data are representative of 3 independent experiments.