Inhibition of DPAGT1 suppresses HER2 shedding and trastuzumab resistance in human breast cancer
Muwen Yang, … , Chuyong Lin, Libing Song
Muwen Yang, … , Chuyong Lin, Libing Song
Published July 17, 2023
Citation Information: J Clin Invest. 2023;133(14):e164428. https://doi.org/10.1172/JCI164428.
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Research Article Oncology

Inhibition of DPAGT1 suppresses HER2 shedding and trastuzumab resistance in human breast cancer

Abstract

Human epidermal growth factor receptor 2–targeted (HER2-targeted) therapy is the mainstay of treatment for HER2+ breast cancer. However, the proteolytic cleavage of HER2, or HER2 shedding, induces the release of the target epitope at the ectodomain (ECD) and the generation of a constitutively active intracellular fragment (p95HER2), impeding the effectiveness of anti-HER2 therapy. Therefore, identifying key regulators in HER2 shedding might provide promising targetable vulnerabilities against resistance. In the current study, we found that upregulation of dolichyl-phosphate N-acetylglucosaminyltransferase (DPAGT1) sustained high-level HER2 shedding to confer trastuzumab resistance, which was associated with poor clinical outcomes. Upon trastuzumab treatment, the membrane-bound DPAGT1 protein was endocytosed via the caveolae pathway and retrogradely transported to the ER, where DPAGT1 induced N-glycosylation of the sheddase — ADAM metallopeptidase domain 10 (ADAM10) — to ensure its expression, maturation, and activation. N-glycosylation of ADAM10 at N267 protected itself from ER-associated protein degradation and was essential for DPAGT1-mediated HER2 shedding and trastuzumab resistance. Importantly, inhibition of DPAGT1 with tunicamycin acted synergistically with trastuzumab treatment to block HER2 signaling and reverse resistance. These findings reveal a prominent mechanism for HER2 shedding and suggest that targeting DPAGT1 might be a promising strategy against trastuzumab-resistant breast cancer.

Authors

Muwen Yang, Yue Li, Lingzhi Kong, Shumei Huang, Lixin He, Pian Liu, Shuang Mo, Xiuqing Lu, Xi Lin, Yunyun Xiao, Dongni Shi, Xinjian Huang, Boyu Chen, Xiangfu Chen, Ying Ouyang, Jun Li, Chuyong Lin, Libing Song

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Figure 7

N-glycosylation of ADAM10 is required for DPAGT1-induced trastuzumab resistance.

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N-glycosylation of ADAM10 is required for DPAGT1-induced trastuzumab res...
(A) IB analysis of the expression of ADAM10, p95, and DPAGT1 in the indicated cells. Mock represents the SK-BR-3/DPAGT1 cells. α-Tubulin was used as a loading control. (B) ELISA analysis of HER2-ECD level in the culture medium from the same cells in A. Data are presented relative to that in the KO/Vec cells. (C) Quantification of relative surviving colonies formed by indicated cells. Data are presented relative to that in the KO/Vec cells. (D) Cell viability assays analyzed the sensitivities of the indicated cells to trastuzumab. (E) Tumor growth curves of the xenograft tumors (n = 8/group) formed by the indicated cells. After 2 weeks of inoculation of the indicated cells, trastuzumab (20 mg/kg) was administered once a week for 5 weeks. Tumor volumes were measured weekly. (F) Relative serum HER2-ECD level in 3 mice from each group. (G) ELISA analysis of relative cleaved caspase-3 in indicated tumors. (H) The apoptotic index represented as the percentage of TUNEL+ cells in indicated tumors. (I and J) Kaplan-Meier analysis of RFS (I) and OS (J) curves in the patients with HER2+ breast cancer stratified by DPAGT1-high/ADAM10-high, DPAGT1-low/ADAM10-low, and others. Data in B, C, D, G, H, and I were plotted as the mean ± SD of biological triplicates. Data in E was plotted as the mean ± SD of 8 mice. Unpaired 2-sided Student’s t test was used in B, C, G, H, and I. 2-way ANOVA was used in D and E. χ2 test was used in J. *P < 0.05, **P < 0.01, ***P < 0.001.