Identification of <i>SFRP1</i> as a Candidate Mediator of Stromal-to-Epithelial Signaling in Prostate Cancer

Joesting, Margaret S.; Perrin, Steve; Elenbaas, Brian; Fawell, Stephen E.; Rubin, Jeffrey S.; Franco, Omar E.; Hayward, Simon W.; Cunha, Gerald R.; Marker, Paul C.

doi:10.1158/0008-5472.can-05-0824

Cited by 147 publications

(141 citation statements)

References 41 publications

(44 reference statements)

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“…Single cells obtained through out protocol were then cultured in RPMI 1640 with 5% FCS and 1 nM testosterone that allows continual growth of only the stromal populations. Each line was confirmed to display properties of CAFs in vitro including growth characteristics, immunomarkers, and RNA expression similar to previous reports [13,14]. In Supporting Information Figure S1, we show that SFRP-1 gene expression was significantly elevated in CAFs used in this study, compared to patientmatched normal prostatic fibroblasts (NPF)s; stromal lines were used between passages 3-6.…”

Section: Cell Lines and Stem Cell Enrichmentsupporting

confidence: 86%

“…While other investigators have studied the direct oncogenic activation of epithelial cells, we chose to apply two different stromal-based assays to indirectly test the effects on subpopulations of prostatic epithelia. First, CAFs derived from primary prostate cancer specimens show distinct genotypic and phenotypic differences compared to their nonmalignant matched controls and have been studied extensively in this BPH-1 cell assay [13,14,36,37]. The second model of hormonal carcinogenesis is based on administration of high doses of testosterone in combination with 17b-estradiol.…”

Section: Discussionmentioning

confidence: 99%

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Human Epithelial Basal Cells Are Cells of Origin of Prostate Cancer, Independent of CD133 Status

et al. 2012

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Normal prostatic epithelium is composed of basal and luminal cells. Prostate cancer can be initiated in both benign basal and luminal stem cells, but because basal cell markers are not expressed in patient tumors, the former result was unexpected. Since the cells of origin of prostate cancer are important therapeutic targets, we sought to provide further proof that basal stem cells have tumorigenic potential. Prostatic basal cells were enriched based on a2b1integrin hi expression and further enriched for stem cells using CD133 in nontumorigenic BPH-1 cells. Human embryonic stem cells (hESCs) were also used as a source of normal stem cells. To test their tumorigenicity, we used two alternate stromal-based approaches; (a) recombination with human cancer-associated fibroblasts (CAFs) or (b) recombination with embryonic stroma (urogenital mesenchyme) and treated host mice with testosterone and 17b-estradiol. Enriched a2b1integrin hi basal cells from BPH-1 cells resulted in malignant tumor formation using both assays of tumorigenicity. Surprisingly, the tumorigenic potential did not reside in the CD133 1 stem cells but was consistently observed in the CD133 2 population. CAFs also failed to induce prostatic tumors from hESCs. These data confirmed that benign human basal cells include cells of origin of prostate cancer and reinforced their importance as therapeutic targets. In addition, our data suggested that the more proliferative CD133 2 basal cells are more susceptible to tumorigenesis compared to the CD133 1 -enriched stem cells. These findings challenge the current dogma that normal stem cells and cells of origin of cancer are the same cell type(s).

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Section: Cell Lines and Stem Cell Enrichmentsupporting

confidence: 86%

Section: Discussionmentioning

confidence: 99%

Human Epithelial Basal Cells Are Cells of Origin of Prostate Cancer, Independent of CD133 Status

et al. 2012

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“…However, we have noticed that the clone formation efficiency was lower in ADAR1-knockdown H9 cells than that in control cells (Supplementary information, Figure S1F). RNA-seq and RT-qPCR results further revealed that some key pro-apoptotic genes, such as S100A6 and BAX [31][32][33], were upregulated and the anti-apoptotic gene SFRP1 [34,35] was downregulated in ADAR1-knockdown H9 cells (Supplementary information, Figure S1G and Table S2), suggesting that ADAR1 deficiency can promote apoptosis of hESCs under certain stresses, such as enzymatic detachment. This is consistent with a previous report that cells cultured from ADAR1-deficient embryos exhibited increased apoptosis when a stress response was induced [24].…”

Section: Adar1 Knockdown Has Little Effect On Hesc Pluripotencymentioning

confidence: 98%

ADAR1 is required for differentiation and neural induction by regulating microRNA processing in a catalytically independent manner

et al. 2015

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Adenosine deaminases acting on RNA (ADARs) are involved in adenosine-to-inosine RNA editing and are implicated in development and diseases. Here we observed that ADAR1 deficiency in human embryonic stem cells (hESCs) significantly affected hESC differentiation and neural induction with widespread changes in mRNA and miRNA expression, including upregulation of self-renewal-related miRNAs, such as miR302s. Global editing analyses revealed that ADAR1 editing activity contributes little to the altered miRNA/mRNA expression in ADAR1-deficient hESCs upon neural induction. Genome-wide iCLIP studies identified that ADAR1 binds directly to pri-miRNAs to interfere with miRNA processing by acting as an RNA-binding protein. Importantly, aberrant expression of miRNAs and phenotypes observed in ADAR1-depleted hESCs upon neural differentiation could be reversed by an enzymatically inactive ADAR1 mutant, but not by the RNA-binding-null ADAR1 mutant. These findings reveal that ADAR1, but not its editing activity, is critical for hESC differentiation and neural induction by regulating miRNA biogenesis via direct RNA interaction.

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“…We consider the CAFs as part of these cancer microenvironment changes that occur in tissue lesions and serve as precursors for malignant disease. Several hypotheses have been presented for the origin of these altered cells, including standard connective tissue acute phase and stress response, 55,80,81 and fibroblast senescence, [82][83][84][85] reciprocal interactions with the cancer cells, 5,20,[86][87][88][89][90] fibroblast specific somatic mutations, [91][92][93][94][95] differentiation precursors and infiltrating mesenchymal stem cell. 96,97 …”

Section: The Mutational Model Of Cafsmentioning

confidence: 99%

Origin of carcinoma associated fibroblasts

Haviv¹,

Polyák²,

Qiu³

et al. 2009

Cell Cycle

103

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Identification of SFRP1 as a Candidate Mediator of Stromal-to-Epithelial Signaling in Prostate Cancer

Cited by 147 publications

References 41 publications

Human Epithelial Basal Cells Are Cells of Origin of Prostate Cancer, Independent of CD133 Status

Human Epithelial Basal Cells Are Cells of Origin of Prostate Cancer, Independent of CD133 Status

ADAR1 is required for differentiation and neural induction by regulating microRNA processing in a catalytically independent manner

Origin of carcinoma associated fibroblasts

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