Motif mimetic of epsin perturbs tumor growth and metastasis
Yunzhou Dong, … , R. Sathish Srinivasan, Hong Chen
Yunzhou Dong, … , R. Sathish Srinivasan, Hong Chen
Published November 16, 2015
Citation Information: J Clin Invest. 2015;125(12):4349-4364. https://doi.org/10.1172/JCI80349.
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Research Article Angiogenesis Cardiology Oncology Vascular biology

Motif mimetic of epsin perturbs tumor growth and metastasis

Abstract

Tumor angiogenesis is critical for cancer progression. In multiple murine models, endothelium-specific epsin deficiency abrogates tumor progression by shifting the balance of VEGFR2 signaling toward uncontrolled tumor angiogenesis, resulting in dysfunctional tumor vasculature. Here, we designed a tumor endothelium–targeting chimeric peptide (UPI) for the purpose of inhibiting endogenous tumor endothelial epsins by competitively binding activated VEGFR2. We determined that the UPI peptide specifically targets tumor endothelial VEGFR2 through an unconventional binding mechanism that is driven by unique residues present only in the epsin ubiquitin–interacting motif (UIM) and the VEGFR2 kinase domain. In murine models of neoangiogenesis, UPI peptide increased VEGF-driven angiogenesis and neovascularization but spared quiescent vascular beds. Further, in tumor-bearing mice, UPI peptide markedly impaired functional tumor angiogenesis, tumor growth, and metastasis, resulting in a notable increase in survival. Coadministration of UPI peptide with cytotoxic chemotherapeutics further sustained tumor inhibition. Equipped with localized tumor endothelium–specific targeting, our UPI peptide provides potential for an effective and alternative cancer therapy.

Authors

Yunzhou Dong, Hao Wu, H.N. Ashiqur Rahman, Yanjun Liu, Satish Pasula, Kandice L. Tessneer, Xiaofeng Cai, Xiaolei Liu, Baojun Chang, John McManus, Scott Hahn, Jiali Dong, Megan L. Brophy, Lili Yu, Kai Song, Robert Silasi-Mansat, Debra Saunders, Charity Njoku, Hoogeun Song, Padmaja Mehta-D’Souza, Rheal Towner, Florea Lupu, Rodger P. McEver, Lijun Xia, Derek Boerboom, R. Sathish Srinivasan, Hong Chen

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Figure 4

UPI mimetic specifically alters VEGFR2 signaling in vitro and ex vivo.

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UPI mimetic specifically alters VEGFR2 signaling in vitro and ex vivo. (...
(A) Western blot analysis of VEGF-mediated (50 ng/ml, 5 min) VEGFR2 accumulation and phosphorylation and downstream phosphorylation of PLCγ and ERK in HUVECαvβ3 pretreated with 10 μM control or UPI peptide (n = 5). (B) Western blot analysis of total and VEGF-mediated (50 ng/ml, 5 min) p-VEGFR2 in TECs pretreated with 10 μM control or UPI peptide. TECs were isolated from LLC tumors (n = 5). (C) Western blot analysis of VEGFR2, EGFR, FGFR1, and PDGFR-β precipitation by biotinylated control or UPI peptides in ex vivo LLC tumor lysates (n = 5). (D) Western blot analysis of FGF, PDGF, and EGF-mediated downstream phosphorylation of PLCγ, AKT, and ERK in HUVECαvβ3 pretreated with 10 μM control or UPI peptide (n = 5). (E) Alignment of UIM sequences from various UIM-containing endocytic proteins. Note: Q9, A13, and K16 are residues uniquely present in the epsin 1 UIM. (F) Molecular diagram of the epsin UIM docking into the putative binding pocket of ubiquitinated VEGFR2 KD. (G) SPR analysis of CTR, UPI, or UPI mutant peptide binding to purified VEGFR2 KD. UPI mutant peptide has Q9A, A13S, and K16A amino acid exchanges (n = 4). RU, response units. (H) Western blot analysis of epsin 1 co-IP by VEGFR2 in 293T cell overexpression of VEGFR2 and either HA-tagged WT epsin 1 or epsin 1 with Q9A, A13S, and K16A point mutations (n = 4). (I) Western blot analysis of VEGFR2 co-IP by epsin 1 in 293T cells overexpressing epsin 1 and either WT VEGFR2 or VEGFR2 with R1027A and R1080A point mutations (n = 4). (J) UPI peptide inhibition of epsin 1 IP by VEGFR2 KD (His) analyzed by coincubating control, UPI, or UPI-mutant peptides and anti-His Ab in lysates from 293T cells overexpressing HA-tagged epsin 1 and His-tagged VEGFR2 KD (n = 5). Mut, mutant.