Targeting an IKBKE cytokine network impairs triple-negative breast cancer growth
Thanh U. Barbie, … , David A. Barbie, William E. Gillanders
Thanh U. Barbie, … , David A. Barbie, William E. Gillanders
Published November 3, 2014
Citation Information: J Clin Invest. 2014;124(12):5411-5423. https://doi.org/10.1172/JCI75661.
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Research Article Oncology

Targeting an IKBKE cytokine network impairs triple-negative breast cancer growth

Abstract

Triple-negative breast cancers (TNBCs) are a heterogeneous set of cancers that are defined by the absence of hormone receptor expression and HER2 amplification. Here, we found that inducible IκB kinase–related (IKK-related) kinase IKBKE expression and JAK/STAT pathway activation compose a cytokine signaling network in the immune-activated subset of TNBC. We found that treatment of cultured IKBKE-driven breast cancer cells with CYT387, a potent inhibitor of TBK1/IKBKE and JAK signaling, impairs proliferation, while inhibition of JAK alone does not. CYT387 treatment inhibited activation of both NF-κB and STAT and disrupted expression of the protumorigenic cytokines CCL5 and IL-6 in these IKBKE-driven breast cancer cells. Moreover, in 3D culture models, the addition of CCL5 and IL-6 to the media not only promoted tumor spheroid dispersal but also stimulated proliferation and migration of endothelial cells. Interruption of cytokine signaling by CYT387 in vivo impaired the growth of an IKBKE-driven TNBC cell line and patient-derived xenografts (PDXs). A combination of CYT387 therapy with a MEK inhibitor was particularly effective, abrogating tumor growth and angiogenesis in an aggressive PDX model of TNBC. Together, these findings reveal that IKBKE-associated cytokine signaling promotes tumorigenicity of immune-driven TNBC and identify a potential therapeutic strategy using clinically available compounds.

Authors

Thanh U. Barbie, Gabriela Alexe, Amir R. Aref, Shunqiang Li, Zehua Zhu, Xiuli Zhang, Yu Imamura, Tran C. Thai, Ying Huang, Michaela Bowden, John Herndon, Travis J. Cohoon, Timothy Fleming, Pablo Tamayo, Jill P. Mesirov, Shuji Ogino, Kwok-Kin Wong, Matthew J. Ellis, William C. Hahn, David A. Barbie, William E. Gillanders

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Figure 7

Activity of CYT387/GSK1120212 combination therapy in an aggressive TNBC PDX model.

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Activity of CYT387/GSK1120212 combination therapy in an aggressive TNBC ...
(A) Spider plot depicting the percentage of change in tumor volume of individual WHIM21 tumors treated with vehicle (n = 8), 50 mg/kg/d CYT387 (n = 3), 2.5 mg/kg/d GSK1120212 (n = 4), or CYT387 and GSK1120212 (n = 9). (B) Immunoblot of pERK1/2, ERK1/2, Y705 pSTAT3, STAT3, and β-actin levels in tumors from vehicle-treated mice or 2 different mice treated short term with vehicle, CYT387 (CYT), GSK1120212 (GSK), or the combination of CYT387 and GSK1120212 (CYT+GSK). (C) Representative WHIM21 tumors dissected from vehicle or CYT387/GSK1120212-treated mice after 30 days. (D) Quantification of proliferation (Ki67), microvascular density (CD31 or ERG), and tumor necrosis of tumors dissected after 30 days of the indicated treatments. Data represent mean and SD values quantified from >5 distinct tumor regions from vehicle- (n = 3), CYT387- (n = 2), GSK1120212- (n = 2), or CYT387/GSK1120212-treated (n = 2) mice. COMBO, CYT387 and GSK1120212.