MAPK4 promotes prostate cancer by concerted activation of androgen receptor and AKT
Tao Shen, … , David D. Moore, Feng Yang
Tao Shen, … , David D. Moore, Feng Yang
Published February 15, 2021
Citation Information: J Clin Invest. 2021;131(4):e135465. https://doi.org/10.1172/JCI135465.
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Research Article Oncology

MAPK4 promotes prostate cancer by concerted activation of androgen receptor and AKT

Abstract

Prostate cancer (PCa) is the second leading cause of cancer death in American men. Androgen receptor (AR) signaling is essential for PCa cell growth/survival and remains a key therapeutic target for lethal castration-resistant PCa (CRPC). GATA2 is a pioneer transcription factor crucial for inducing AR expression/activation. We recently reported that MAPK4, an atypical MAPK, promotes tumor progression via noncanonical activation of AKT. Here, we demonstrated that MAPK4 activated AR by enhancing GATA2 transcriptional expression and stabilizing GATA2 protein through repression of GATA2 ubiquitination/degradation. MAPK4 expression correlated with AR activation in human CRPC. Concerted activation of both GATA2/AR and AKT by MAPK4 promoted PCa cell proliferation, anchorage-independent growth, xenograft growth, and castration resistance. Conversely, knockdown of MAPK4 decreased activation of both AR and AKT and inhibited PCa cell and xenograft growth, including castration-resistant growth. Both GATA2/AR and AKT activation were necessary for MAPK4 tumor-promoting activity. Interestingly, combined overexpression of GATA2 plus a constitutively activated AKT was sufficient to drive PCa growth and castration resistance, shedding light on an alternative, MAPK4-independent tumor-promoting pathway in human PCa. We concluded that MAPK4 promotes PCa growth and castration resistance by cooperating parallel pathways of activating GATA2/AR and AKT and that MAPK4 is a novel therapeutic target in PCa, especially CRPC.

Authors

Tao Shen, Wei Wang, Wolong Zhou, Ilsa Coleman, Qinbo Cai, Bingning Dong, Michael M. Ittmann, Chad J. Creighton, Yingnan Bian, Yanling Meng, David R. Rowley, Peter S. Nelson, David D. Moore, Feng Yang

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Figure 1

Knockdown of MAPK4 inhibits PCa cell growth.

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Knockdown of MAPK4 inhibits PCa cell growth. (A) MAPK4, GATA2, and AR ex...
(A) MAPK4, GATA2, and AR expression in human PCa cell lines as well as in PNT1A, an immortalized normal prostate epithelial cell line that does not express AR. Left panel: Western blots. Right panel: qPCR. (B) MTT assays comparing the growth of the LAPC4 cells with Dox-inducible knockdown of MAPK4 (iG2, iG4) or control (iNT) and VCaP cells with knockdown of MAPK4 (G2, G4) or control (NT). Also shown are 22Rv1 cells with Dox-inducible knockdown of MAPK4 (iG2, iG4) or control (iNT) cultured under complete castration (CAS) condition in media containing 5% charcoal-stripped serum (CSS) plus 10 μM MDV3100 for maximal androgen blockade. Data represent mean ± SD. (C) BrdU incorporation assays comparing the proliferation of 22Rv1 cells with Dox-inducible knockdown of MAPK4 (iG2, iG4) or control (iNT) cultured under CAS condition as described above. Original magnification: ×400. The percentage of BrdU-labeled cells was quantified and data shown as mean ± SEM. (D) Soft-agar assays comparing the anchorage-independent growth of the LAPC4 cells with Dox-inducible knockdown of MAPK4 (iG2) or control (iNT) and VCaP cells with knockdown of MAPK4 (G2) or control (NT). Also shown are 22Rv1 cells with Dox-inducible knockdown of MAPK4 (iG2) or control (iNT) cultured under CAS condition as described above. Original magnification: ×50. The colony numbers were quantified and data shown as mean ± SEM. P values determined by unpaired 2-tailed Student’s t test and adjusted P values determined by 1-way ANOVA followed by Dunnett’s multiple comparisons (B, C) or 2-way ANOVA followed by Sidak’s multiple comparisons (LAPC4 data in D). ****P ≤ 0.0001. Data are representative of at least 3 independent experiments.