Isla P. Garraway scite author profile

Prostate cancer induced in primary human prostate basal cells recapitulates disease initiation and progression in immunodeficient mice.Luminal cells are believed to be the cells-of-origin for human prostate cancer because the disease is characterized by luminal cell expansion and absence of basal cells. Yet functional studies addressing the origin of human prostate cancer have not previously been reported due to a lack of relevant in vivo human models. Here we show that basal cells, from primary benign human prostate tissue, can initiate prostate cancer in immunodeficient mice. The cooperative effects of AKT, ERG, and androgen receptor (AR) in basal cells recapitulated the histological and molecular features of human prostate cancer with loss of basal cells and expansion of luminal cells expressing prostate-specific antigen (PSA) and alpha-methylacylCoA racemase (AMACR). Our results demonstrate that histological characterization of cancers does not necessarily correlate with the cellular origins of the disease.Prostate cancer research has been hindered by an absence of model systems in which the disease is initiated from primary human prostate epithelial cells, precluding investigation of transforming alterations and cells-of-origin. Commonly used human prostate cancer cell lines and xenografts were derived from metastatic lesions. Murine prostate cancer models prohibit testing of species-specific therapies such as monoclonal antibodies against human proteins (1). An ideal model system would be human cell-derived and present as a multifocal disease to accurately represent the heterogeneity of prostate malignancy (2). The

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Cell Autonomous Role of PTEN in Regulating Castration-Resistant Prostate Cancer Growth

Mulholland

et al. 2011

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SUMMARY Alteration of the PTEN/PI3K pathway is associated with late stage and castrate resistant prostate cancer (CRPC). However, how PTEN loss involves in CRPC development is not clear. Here we show that castration-resistant growth is an intrinsic property of Pten-null prostate cancer (CaP) cells, independent of cancer development stage. PTEN loss suppresses androgen-responsive gene expressions by modulating androgen receptor (AR) transcription factor activity. Conditional deletion of Ar in the epithelium promotes the proliferation of Pten-null cancer cells, at least in part, by down-regulating androgen-responsive gene Fkbp5 and preventing PHLPP-mediated AKT inhibition. Our findings identify PI3K and AR pathway crosstalk as a mechanism of CRPC development, with potentially important implications for CaP etiology and therapy.

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Trop2 identifies a subpopulation of murine and human prostate basal cells with stem cell characteristics

Goldstein¹,

Lawson

Cheng

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

309

332

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The epithelium of the adult prostate contains 3 distinct cell types: basal, luminal, and neuroendocrine. Tissue-regenerative activity has been identified predominantly from the basal cells, isolated by expression of CD49f and stem cell antigen-1 (Sca-1). An important question for the field is whether all basal cells have stem cell characteristics. Prostate-specific microarray databases were interrogated to find candidate surface antigens that could subfractionate the basal cell population. Tumor-associated calcium signal transducer 2 (TACSTD2/Trop2/M1S1/GA733-1) was identified because it was enriched after castration, in prostate sphere cells and in the basal fraction. In the murine prostate, Trop2 shows progenitor characteristics such as localization to the region of the gland proximal to the urethra and enrichment for sphere-forming and colony-forming cells. Trop2 subfractionates the basal cells into 2 populations, both of which express characteristic basal cell markers by quantitative PCR. However, only the basal cells expressing high levels of Trop2 were able to efficiently form spheres in vitro. In the human prostate, where Sca-1 is not expressed, sphere-forming progenitor cells were also isolated based on high expression of Trop2 and CD49f. Trop2-expressing murine basal cells could regenerate prostatic tubules in vivo, whereas the remaining basal cells had minimal activity. Evidence was found for basal, luminal, and neuroendocrine cells in prostatic tubules regenerated from Trop2 hi basal cells. In summary, functionally distinct populations of cells exist within the prostate basal compartment and an epithelial progenitor can give rise to neuroendocrine cells in vivo.neuroendocrine ͉ progenitor ͉ sphere assay

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Integrated Classification of Prostate Cancer Reveals a Novel Luminal Subtype with Poor Outcome

You

Knudsen

Erho³

et al. 2016

155

255

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Prostate cancer (PC) is a biologically heterogeneous disease with variable molecular alterations underlying cancer initiation and progression. Despite recent advances in understanding PC heterogeneity, better methods for classification of PC are still needed to improve prognostic accuracy and therapeutic outcomes. In this study we computationally assembled a large virtual cohort (n=1,321) of human PC transcriptome profiles from 38 distinct cohorts and, using pathway activation signatures of known relevance to PC, developed a novel classification system consisting of 3 distinct subtypes (named PCS1 to 3). We validated this subtyping scheme in 10 independent patient cohorts and 19 laboratory models of PC, including cell lines and genetically engineered mouse models. Analysis of subtype-specific gene expression patterns in independent datasets derived from luminal and basal cell models provides evidence that PCS1 and PCS2 tumors reflect luminal subtypes, while PCS3 represents a basal subtype. We show that PCS1 tumors progress more rapidly to metastatic disease in comparison to PCS2 or PCS3, including PSC1 tumors of low Gleason grade. To apply this finding clinically, we developed a 37-gene panel that accurately assigns individual tumors to one of the 3 PCS subtypes. This panel was also applied to circulating tumor cells (CTCs) and provided evidence that PCS1 CTCs may reflect enzalutamide resistance. In summary, PCS subtyping may improve accuracy in predicting the likelihood of clinical progression and permit treatment stratification at early and late disease stages.

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Prostate cancer reactivates developmental epigenomic programs during metastatic progression

et al. 2020

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Isla P. Garraway

Identification of a Cell of Origin for Human Prostate Cancer

Cell Autonomous Role of PTEN in Regulating Castration-Resistant Prostate Cancer Growth

Trop2 identifies a subpopulation of murine and human prostate basal cells with stem cell characteristics

Integrated Classification of Prostate Cancer Reveals a Novel Luminal Subtype with Poor Outcome

Prostate cancer reactivates developmental epigenomic programs during metastatic progression

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