Neuropilin-1 upregulation elicits adaptive resistance to oncogene-targeted therapies
Sabrina Rizzolio, … , Silvia Giordano, Luca Tamagnone
Sabrina Rizzolio, … , Silvia Giordano, Luca Tamagnone
Published August 31, 2018; First published June 28, 2018
Citation Information: J Clin Invest. 2018;128(9):3976-3990. https://doi.org/10.1172/JCI99257.
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Categories: Research Article Oncology Therapeutics

Neuropilin-1 upregulation elicits adaptive resistance to oncogene-targeted therapies

Abstract

Cancer cell dependence on activated oncogenes is therapeutically targeted, but acquired resistance is virtually unavoidable. Here we show that the treatment of addicted melanoma cells with BRAF inhibitors, and of breast cancer cells with HER2-targeted drugs, led to an adaptive rise in neuropilin-1 (NRP1) expression, which is crucial for the onset of acquired resistance to therapy. Moreover, NRP1 levels dictated the efficacy of MET oncogene inhibitors in addicted stomach and lung carcinoma cells. Mechanistically, NRP1 induced a JNK-dependent signaling cascade leading to the upregulation of alternative effector kinases EGFR or IGF1R, which in turn sustained cancer cell growth and mediated acquired resistance to BRAF, HER2, or MET inhibitors. Notably, the combination with NRP1-interfering molecules improved the efficacy of oncogene-targeted drugs and prevented or even reversed the onset of resistance in cancer cells and tumor models. Our study provides the rationale for targeting the NRP1-dependent upregulation of tyrosine kinases, which are responsible for loss of responsiveness to oncogene-targeted therapies.

Authors

Sabrina Rizzolio, Gabriella Cagnoni, Chiara Battistini, Stefano Bonelli, Claudio Isella, Jo A. Van Ginderachter, René Bernards, Federica Di Nicolantonio, Silvia Giordano, Luca Tamagnone

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Figure 7

p27 decrease and JNK activation mediate NRP1-driven EGFR and IGF1R upregulation.

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p27 decrease and JNK activation mediate NRP1-driven EGFR and IGF1R upreg...
(A) p27 mRNA levels were measured by qPCR (n > 3) in the indicated cancer cell lines: A375 and SK-MEL-28 (parental or resistant to PLX-4720), BT474 (parental or resistant to lapatinib), and EBC1 (NRP1 overexpressing or mock transfected). (B) p27-Kip1, activated phospho-JNK, and total JNK protein levels in cancer cells described in A (1 representative experiment of 4 repetitions; duplicate samples were run on parallel gels). The values at the bottom indicate densitometric measurement of relative p-JNK versus total JNK band intensity. (C) NRP1, p27, p-JNK, and total JNK levels in EBC1 cells subjected to NRP1 silencing (1 representative experiment of 3 repetitions; duplicate samples were run on parallel gels). (D) p-JNK and EGFR levels in EBC1 cells (shown in B), subjected to p27 overexpression (1 representative experiment of 3 repetitions; duplicate samples were run on parallel gels). (E) qPCR analysis of EGFR expression in SK-MEL-28 melanoma cells, parental or PLX-4720 resistant, upon treatment with the JNK kinase inhibitor SP600125 (25 μM; JNK-i) or with vehicle alone (n = 5). (F) EGFR expression in EBC1 cells (shown in B), either in basal conditions (Veh) or in the presence of 25 μM SP600125 (1 representative experiment of 6 repetitions). (G) IGF1R levels in BT474 cells (shown in B), either in basal conditions or in the presence of 25 μM SP600125 (1 representative experiment of 5 repetitions). **P < 0.001, ***P < 0.0001.