Kendric Wang scite author profile

More potent targeting of the androgen receptor (AR) in advanced prostate cancer is driving an increased incidence of neuroendocrine prostate cancer (NEPC), an aggressive and treatment-resistant AR-negative variant. Its molecular pathogenesis remains poorly understood but appears to require TP53 and RB1 aberration. We modeled the development of NEPC from conventional prostatic adenocarcinoma using a patient-derived xenograft and found that the placental gene PEG10 is de-repressed during the adaptive response to AR interference and subsequently highly upregulated in clinical NEPC. We found that the AR and the E2F/RB pathway dynamically regulate distinct post-transcriptional and post-translational isoforms of PEG10 at distinct stages of NEPC development. In vitro, PEG10 promoted cell-cycle progression from G0/G1 in the context of TP53 loss and regulated Snail expression via TGF-β signaling to promote invasion. Taken together, these findings show the mechanistic relevance of RB1 and TP53 loss in NEPC and suggest PEG10 as a NEPC-specific target.

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Optimally discriminative subnetwork markers predict response to chemotherapy

Dao

Wang

Ester

et al. 2011

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Motivation: Molecular profiles of tumour samples have been widely and successfully used for classification problems. A number of algorithms have been proposed to predict classes of tumor samples based on expression profiles with relatively high performance. However, prediction of response to cancer treatment has proved to be more challenging and novel approaches with improved generalizability are still highly needed. Recent studies have clearly demonstrated the advantages of integrating protein–protein interaction (PPI) data with gene expression profiles for the development of subnetwork markers in classification problems.Results: We describe a novel network-based classification algorithm (OptDis) using color coding technique to identify optimally discriminative subnetwork markers. Focusing on PPI networks, we apply our algorithm to drug response studies: we evaluate our algorithm using published cohorts of breast cancer patients treated with combination chemotherapy. We show that our OptDis method improves over previously published subnetwork methods and provides better and more stable performance compared with other subnetwork and single gene methods. We also show that our subnetwork method produces predictive markers that are more reproducible across independent cohorts and offer valuable insight into biological processes underlying response to therapy.Availability: The implementation is available at: http://www.cs.sfu.ca/~pdao/personal/OptDis.htmlContact: cenk@cs.sfu.ca; alapuk@prostatecentre.com; ccollins@prostatecentre.com

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Heterogeneity in the inter-tumor transcriptome of high risk prostate cancer

Wyatt

Wang

et al. 2014

Genome Biol

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Background: Genomic analyses of hundreds of prostate tumors have defined a diverse landscape of mutations and genome rearrangements, but the transcriptomic effect of this complexity is less well understood, particularly at the individual tumor level. We selected a cohort of 25 high-risk prostate tumors, representing the lethal phenotype, and applied deep RNA-sequencing and matched whole genome sequencing, followed by detailed molecular characterization.

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Stromal Gene Expression is Predictive for Metastatic Primary Prostate Cancer

Lin

Takhar

et al. 2018

European Urology

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Kendric Wang

The Placental Gene PEG10 Promotes Progression of Neuroendocrine Prostate Cancer

Optimally discriminative subnetwork markers predict response to chemotherapy

Heterogeneity in the inter-tumor transcriptome of high risk prostate cancer

Stromal Gene Expression is Predictive for Metastatic Primary Prostate Cancer

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