The Role of Androgen Receptor Mutations in Prostate Cancer Progression

Brooke, Greg N.; Bevan, Charlotte L.

doi:10.2174/138920209787581307

Cited by 149 publications

(138 citation statements)

References 83 publications

(76 reference statements)

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“…These observations also suggest that AR function could be bypassed by other redundant cell signaling networks mediated by soluble factors such as insulin-like growth factor I, epidermal growth factor, keratinocyte growth factor, and interleukin-6 (19,20,50,51). Additional studies may be warranted to define how the triad relationship would function in normal versus cancer cells and in clinical prostate cancer, which characteristically contains cells with heterogeneous arrays of AR, including AR gene amplification and mutation and AR protein overexpression and silencing (52)(53)(54). In addition, the data presented in this communication are collected from the study of established AR-positive human prostate cancer cell lines, and further investigation of this concept in primary prostate cancer cells might be of importance.…”

Section: Discussionmentioning

confidence: 99%

Androgen Receptor Survival Signaling Is Blocked by Anti-β2-microglobulin Monoclonal Antibody via a MAPK/Lipogenic Pathway in Human Prostate Cancer Cells

Huang

Zhau

Chung

2010

Journal of Biological Chemistry

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A new cis-acting element, sterol regulatory element-binding protein-1 (SREBP-1) binding site, within the 5-flanking human androgen receptor (AR) promoter region and its binding transcription factor, SREBP-1, was identified to regulate AR transcription in AR-positive human prostate cancer cells. We further characterized the molecular mechanism by which a novel anti-␤2-microglobulin monoclonal antibody (␤2M mAb), shown to induce massive cell death in a number of human and mouse cancer cell lines, interrupted multiple cell signaling pathways in human prostate cancer cells. ␤2M mAb decreased AR expression through inactivation of MAPK and SREBP-1. By inactivation of MAPK, ␤2M mAb decreased prostate cancer cell proliferation and survival. By inhibition of SREBP-1, ␤2M mAb reduced fatty acid and lipid levels, an integral component of cell membrane, cell signaling mediators, and energy metabolism. These results provide for the first time a molecular link between the ␤2M intracellular signaling axis mediated by MAPK and SREBP-1 and involving lipid signaling, which collectively regulates AR expression and function. Antagonizing ␤2M by ␤2M mAb may be an effective therapeutic approach simultaneously targeting multiple downstream signaling pathways converging with MAPK, SREBP-1, and AR, important for controlling prostate cancer cell growth, survival, and progression. ␤2-Microglobulin (␤2M)3 is a co-receptor of a major histocompatibility complex class I antigen. ␤2M has been implicated in the regulation of the host immune mechanism and is essential for the recognition of foreign antigens by T-lymphocytes (1). Recent reports from our laboratory and others assigned additional biological functions to ␤2M as a diagnostic and prognostic indicator for multiple myeloma, prostate, and breast cancers (2-5); a growth factor and a signaling molecule (6, 7); a new androgen and androgen receptor (AR) target gene (8); and an attractive new therapeutic target for both liquid (9) and solid (10, 11) tumor malignancies. Blockade of ␤2M and its related signaling pathways by sequence-specific siRNA or antibody resulted in the inhibition of AR expression and activity and the induction of extensive prostate cancer cell death in vitro as well as prostate tumor regression in immune-compromised mice (7, 10). In addition, anti-␤2M monoclonal antibody (␤2M mAb) has been shown not to significantly affect the growth of normal cells, consistent with experimental observations where transgenic mice with a ␤2M deficit had normal organ function and life expectancy (9, 10, 12). Therefore, ␤2M and its signaling axis may offer an opportunity for improving the clinical targeting of prostate cancer.AR is a key growth and survival regulatory transcription factor for androgen target organs during normal development and neoplastic progression. Recognition of the importance of the AR signaling axis, particularly in castration-resistant prostate cancer, has prompted discoveries targeting androgen biosynthetic pathways using abiraterone as an agent for a Phase III trial...

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Section: Discussionmentioning

confidence: 99%

Androgen Receptor Survival Signaling Is Blocked by Anti-β2-microglobulin Monoclonal Antibody via a MAPK/Lipogenic Pathway in Human Prostate Cancer Cells

Huang

Zhau

Chung

2010

Journal of Biological Chemistry

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“…Mutations in the AR gene may change its ligand binding characteristics or its transcriptional activity, resulting in the modulation of its target gene expression (Brooke et al 2008, Brooke & Bevan 2009). In addition to AR mutations, several AR splice variants that exhibit transcriptional activity even in the absence of androgen and contribute to the promotion of CRPC have recently been identified (Dehm et al 2008, Guo et al 2009, Hu et al 2009, Sun et al 2010, Watson et al 2010.…”

Section: Ar Mutations and Splice Variantsmentioning

confidence: 99%

Pro-survival and anti-apoptotic properties of androgen receptor signaling by oxidative stress promote treatment resistance in prostate cancer

Shiota

Yokomizo

Naito

2012

Endocrine-Related Cancer

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Oxidative stress caused by an increase in reactive oxygen species levels or a decrease in cellular antioxidant capacity can evoke the modulation of various cellular events including androgen receptor (AR) signaling via direct or indirect interactions. In this review, we summarize the mechanisms of AR activation by oxidative stress including: i) AR overexpression; ii) AR activation by AR co-regulators or intracellular signal transduction pathways; iii) generation of AR mutations or splice variants; and iv) de novo androgen synthesis. AR signaling augmented by oxidative stress appears to contribute to pro-survival and anti-apoptotic effects in prostate cancer cells in response to androgen deprivation therapy. In addition, AR signaling suppresses anti-survival and pro-apoptotic effects in prostate cancer cells in response to various cytotoxic and tumorsuppressive interventions including taxanes and radiation through the modulation of bIII-tubulin and ataxia telangiectasia-mutated kinase expression respectively. Taken together, AR signaling appears to render prostate cancer cells refractory to various therapeutic interventions including castration, taxanes, and radiation, indicating that AR signaling is a comprehensive resistant factor and crucial target for prostate cancer treatment.

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“…Treatment for non-organ-confined prostate cancer usually involves administration of luteinizing hormone-releasing hormone analogs, which abrogate the production of testicular androgens, and/or antiandrogens, which bind to and block the activity of the AR. In the majority of cases, patients initially respond well to such treatment, but after a median of 2 years, tumors progress toward the more aggressive "androgen-independent" stage of the disease (3). The postulated molecular mechanisms that drive the transition to androgen independence include mutation and amplification of the receptor, altered levels/distribution of coregulator proteins, and growth factor-activated pathways (2)(3)(4).…”

mentioning

confidence: 99%

“…In the majority of cases, patients initially respond well to such treatment, but after a median of 2 years, tumors progress toward the more aggressive "androgen-independent" stage of the disease (3). The postulated molecular mechanisms that drive the transition to androgen independence include mutation and amplification of the receptor, altered levels/distribution of coregulator proteins, and growth factor-activated pathways (2)(3)(4). At this stage of the disease, patients have a median survival of 12-18 months; thus, it is important to better understand the mechanisms that regulate AR activity and drive prostate cancer progression.…”

mentioning

confidence: 99%

Repression of Androgen Receptor Activity by HEYL, a Third Member of the Hairy/Enhancer-of-split-related Family of Notch Effectors

Lavery

Villaronga

Walker

et al. 2011

Journal of Biological Chemistry

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The Hairy/Enhancer-of-split-related with YRPW-like motif (HEY) family of proteins are transcriptional repressors and downstream effectors of Notch signaling. We previously reported that HEY1 and HEY2 selectively repress androgen receptor (AR) signaling in mammalian cell lines and have shown that in human tissue HEY1 is excluded from the nuclei in prostate cancer but not benign prostatic hyperplasia. We have now characterized a third member of this family, HEYL, which is a more potent repressor of AR activity. HEYL interacted with and repressed AR activation function-1 domain and competitively inhibited SRC1e activation of AR transcriptional activity. Using a cell line inducibly expressing exogenous HEYL, we showed that HEYL represses endogenous AR-regulated genes and reduces androgen-dependent prostate cancer cell growth. Using a transrepression assay, we identified both trichostatin-sensitive and -insensitive domains within HEYL; however, analysis of endogenous AR target genes suggested that HEYL represses AR activity through histone deacetylase I/II-independent mechanisms. Immunohistochemical analyses of tissue indicated that, in a fashion similar to that previously reported for HEY1, HEYL is excluded from the nuclei in prostate cancer but not adjacent benign tissue. This suggests that nuclear exclusion of HEY proteins may be an important step in the progression of prostate cancer.

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The Role of Androgen Receptor Mutations in Prostate Cancer Progression

Cited by 149 publications

References 83 publications

Androgen Receptor Survival Signaling Is Blocked by Anti-β2-microglobulin Monoclonal Antibody via a MAPK/Lipogenic Pathway in Human Prostate Cancer Cells

Androgen Receptor Survival Signaling Is Blocked by Anti-β2-microglobulin Monoclonal Antibody via a MAPK/Lipogenic Pathway in Human Prostate Cancer Cells

Pro-survival and anti-apoptotic properties of androgen receptor signaling by oxidative stress promote treatment resistance in prostate cancer

Repression of Androgen Receptor Activity by HEYL, a Third Member of the Hairy/Enhancer-of-split-related Family of Notch Effectors

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