R. Siobhan Darrington scite author profile

BackgroundWnt-11 is a secreted protein that modulates cell growth, differentiation and morphogenesis during development. We previously reported that Wnt-11 expression is elevated in hormone-independent prostate cancer and that the progression of prostate cancer from androgen-dependent to androgen-independent proliferation correlates with a loss of mutual inhibition between Wnt-11- and androgen receptor-dependent signals. However, the prevalence of increased expression of Wnt-11 in patient tumours and the functions of Wnt-11 in prostate cancer cells were not known.ResultsWnt-11 protein levels in prostate tumours were determined by immunohistochemical analysis of prostate tumour tissue arrays. Wnt-11 protein was elevated in 77/117 of tumours when compared with 27 benign prostatic hypertrophy specimens and was present in 4/4 bone metastases. In addition, there was a positive correlation between Wnt-11 expression and PSA levels above 10 ng/ml. Androgen-depleted LNCaP prostate cancer cells form neurites and express genes associated with neuroendocrine-like differentiation (NED), a feature of prostate tumours that have a poor prognosis. Since androgen-depletion increases expression of Wnt-11, we examined the role of Wnt-11 in NED. Ectopic expression of Wnt-11 induced expression of NSE and ASCL1, which are markers of NED, and this was prevented by inhibitors of cyclic AMP-dependent protein kinase, consistent with the known role of this kinase in NED. In contrast, Wnt-11 did not induce NSE expression in RWPE-1 cells, which are derived from benign prostate, suggesting that the role of Wnt-11 in NED is specific to prostate cancer. In addition, silencing of Wnt-11 expression in androgen-depleted LNCaP cells prevented NED and resulted in apoptosis. Silencing of Wnt-11 gene expression in androgen-independent PC3 cells also reduced expression of NSE and increased apoptosis. Finally, silencing of Wnt-11 reduced PC3 cell migration and ectopic expression of Wnt-11 promoted LNCaP cell invasion.ConclusionsThese observations suggest that the increased level of Wnt-11 found in prostate cancer contributes to tumour progression by promoting NED, tumour cell survival and cell migration/invasion, and may provide an opportunity for novel therapy in prostate cancer.

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The regulatory roles of phosphatases in cancer

Stebbing

Lit

Zhang

et al. 2013

Oncogene

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The relevance of potentially reversible post-translational modifications required for controlling cellular processes in cancer is one of the most thriving arenas of cellular and molecular biology. Any alteration in the balanced equilibrium between kinases and phosphatases may result in development and progression of various diseases, including different types of cancer, though phosphatases are relatively under-studied. Loss of phosphatases such as PTEN (phosphatase and tensin homologue deleted on chromosome 10), a known tumour suppressor, across tumour types lends credence to the development of phosphatidylinositol 3 - kinase inhibitors alongside the use of phosphatase expression as a biomarker, though phase 3 trial data are lacking. In this review, we give an updated report on phosphatase dysregulation linked to organ-specific malignancies. © 2014 American Heart Association, Inc

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Distinct expression and activity of GSK‐3α and GSK‐3β in prostate cancer

Darrington

Campa

Walker

et al. 2012

Intl Journal of Cancer

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Glycogen synthase kinase (GSK-3) is upregulated in many types of tumor, including prostate cancer. GSK-3 inhibitors reduce prostate tumor cell growth; however, it is not clear if both isoforms, GSK-3a and GSK-3b, are involved. Here, we compared their expression in prostate tumors and used gene silencing to study their functions in 22Rv1 prostate cancer cells. Compared to normal prostate, GSK-3a and GSK-3b were upregulated in 25/79 and 24/79 cases of prostate cancer, respectively, with GSK-3a elevated in low Gleason sum score tumors and GSK-3b expressed in high Gleason tumors, and both isoforms correlating with high expression of the androgen receptor (AR). Gene silencing of GSK-3a and, to a lesser extent, GSK-3b reduced AR transcriptional activity. In addition, silencing of GSK-3b, but not GSK-3a, reduced Akt phosphorylation. Acute and chronic silencing of either isoform reduced 22Rv1 growth in colony formation assays; however, this did not correlate with effects on AR activity. The GSK-3 inhibitor CHIR99021 reduced 22Rv1 colony formation by 50% in normal growth medium and by 15% in hormone-depleted medium, suggesting that GSK-3 is required both for hormone-dependent and hormone-independent proliferation. In addition, CHIR99021 enhanced growth inhibition by the AR antagonists bicalutamide and MDV3100. Finally, expression of GSK3A and GSK3B mRNAs correlated with a gene expression signature for androgen-regulated genes. Our observations highlight the importance of the GSK-3/AR signaling axis in prostate cancer and support the case for development of isoform-specific GSK-3 inhibitors and their use, in combination with AR antagonists, to treat patients with prostate cancer.

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Secreted Frizzled-related protein-1 is a negative regulator of androgen receptor activity in prostate cancer

et al. 2009

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Secreted Frizzled-related protein-1 (sFRP1) associates with Wnt proteins and its loss can lead to activation of Wnt/b-catenin signalling. It is frequently downregulated in cancer, including prostate cancer, but its function in prostate cancer is unclear because it can increase proliferation of prostate epithelial cells. We investigated the function of sFRP1 in androgen-dependent prostate cancer and found that sFRP1 inhibited androgen receptor (AR) transcriptional activity. In addition, sFRP1 inhibited the proliferation of androgen-dependent LNCaP cells but not of an androgen-independent subline LNCaP-r, suggesting a role in androgen-dependent growth. The inhibition of AR by sFRP1 was unaffected by co-expression of Wnt3a, stabilised b-catenin or b-catenin shRNA, suggesting it does not involve Wnt/b-catenin signalling. Wnt5a also inhibited AR and expression of Wnt5a and sFRP1 together did not further inhibit AR, suggesting that Wnt5a and sFRP1 activate the same signal(s) to inhibit AR. However, sFRP1 inhibition of AR was unaffected by inhibitors of kinases involved in Wnt/Ca 2 þ and Wnt/planar cell polarity non-canonical Wnt signalling. Interestingly, the cysteine-rich domain of sFRP1 interacted with Frizzled receptors expressed in prostate cancer cells, suggesting that sFRP1/Frizzled complexes activate a signal that leads to repression of AR. Taken together, these observations highlight the function of b-cateninindependent Wnt signalling in the control of AR activity and provide one explanation for sFRP1 downregulation in prostate cancer.

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