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. 2021 Sep 1;81(17):4471-4484.
doi: 10.1158/0008-5472.CAN-20-4194. Epub 2021 Jun 22.

MAP3K7-IKK Inflammatory Signaling Modulates AR Protein Degradation and Prostate Cancer Progression

Zhenlin Huang #  1   2 Bo Tang #  2   3 Yinhui Yang #  2   4   5 Zhaogang Yang #  2 Lei Shi  2 Yang Bai  2   4 Binyuan Yan  2   6 R Jeffrey Karnes  7   8 Jun Zhang  9 Rafael Jimenez  10 Liguo Wang  11 Qiang Wei  3 Jinjian Yang  1 Wanhai Xu  4 Zhankui Jia  12 Haojie Huang  13   7   8
Affiliations

MAP3K7-IKK Inflammatory Signaling Modulates AR Protein Degradation and Prostate Cancer Progression

Zhenlin Huang et al. Cancer Res. .

Abstract

Androgen receptor (AR) is a major survival factor for prostate cancer. Inflammation is implicated in many cancer types, including prostate cancer. Activation of MAP3K7 (also termed TAK1) and downstream IκB kinase β (IKKβ) by proinflammatory cytokines such as TNFα stimulates NF-κB survival pathways. Paradoxically, MAP3K7 is often deleted in human prostate cancer. Here, we demonstrate that AR protein expression is lower in inflammatory tumor areas compared with non-inflammatory tissues in patients with prostate cancer. Map3k7 knockout increased AR protein levels and activity in the mouse prostate, and MAP3K7 and AR protein levels were inversely correlated in prostate cancer patient specimens. TNFα treatment increased AR protein ubiquitination and proteasomal degradation. Mechanistically, activation of IKKβ by TNFα induced phosphorylation and TRCP1/2 E3 ligase-mediated polyubiquitination and degradation of AR protein. TNFα suppressed prostate cancer proliferation, which could be rescued by blockade of AR degradation. These findings reveal a previously unrecognized tumor suppressive function of the inflammation-activated MAP3K7-IKKβ axis in degrading AR protein. Moreover, they suggest that aberrant elevation of AR protein could be a prognostic biomarker and therapeutic target for MAP3K7-deficient prostate cancer. SIGNIFICANCE: This study identifies that MAP3K7-IKKβ signaling plays a tumor-suppressive role in prostate cancer by degrading AR, revealing potential prognostic and therapeutic strategies for MAP3K7-deficient tumors.

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