Prostate Sphere-forming Stem Cells Are Derived from the P63-expressing Basal Compartment

Prostate Sphere-forming Stem Cells Are Derived from the P63-expressing Basal Compartment

Prostate stem cells (P-SCs) are capable of giving rise to all three lineages of prostate epithelial cells, including basal, luminal, and neuroendocrine cells. Multiple methods have been used to identify P-SCs in adult prostates. These include in vivo renal capsule implantation of a single epithelial...

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Veröffentlicht in:The Journal of biological chemistry 2015-07, Vol.290 (29), p.17745-17752
Hauptverfasser: Huang, Yanqing, Hamana, Tomoaki, Liu, Junchen, Wang, Cong, An, Lei, You, Pan, Chang, Julia Y.F., Xu, Jianming, McKeehan, Wallace L., Wang, Fen
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Sprache:eng
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Adult Stem Cells - cytology
Animals
Cell Biology
Cell Differentiation
cell signaling
Cells, Cultured
Epithelial Cells - cytology
fibroblast growth factor (FGF)
fibroblast growth factor receptor (FGFR)
Homeodomain Proteins - analysis
Male
Mice
Organ Culture Techniques
Phosphoproteins - analysis
prostate
Prostate - cytology
Receptors, G-Protein-Coupled - analysis
Spheroids, Cellular
stem cells
Trans-Activators - analysis
Transcription Factors - analysis
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container_end_page 17752
container_issue 29
container_start_page 17745
container_title The Journal of biological chemistry
container_volume 290
creator Huang, Yanqing
Hamana, Tomoaki
Liu, Junchen
Wang, Cong
An, Lei
You, Pan
Chang, Julia Y.F.
Xu, Jianming
McKeehan, Wallace L.
Wang, Fen
description Prostate stem cells (P-SCs) are capable of giving rise to all three lineages of prostate epithelial cells, including basal, luminal, and neuroendocrine cells. Multiple methods have been used to identify P-SCs in adult prostates. These include in vivo renal capsule implantation of a single epithelial cell with urogenital mesenchymal cells, in vitro prostasphere and organoid cultures, and lineage tracing with castration-resistant Nkx3.1 expression (CARN), in conjunction with expression of cell type-specific markers. Both organoid culture and CARN tracing show the existence of P-SCs in the luminal compartment. Although prostasphere cells predominantly express basal cell-specific cytokeratin and P63, the lineage of prostasphere-forming cells in the P-SC hierarchy remains to be determined. Using lineage tracing with P63CreERT2, we show here that the sphere-forming P-SCs are P63-expressing cells and reside in the basal compartment. Therefore we designate them as basal P-SCs (P-bSCs). P-bSCs are capable of differentiating into AR+ and CK18+ organoid cells, but organoid cells cannot form spheres. We also report that prostaspheres contain quiescent stem cells. Therefore, the results show that P-bSCs represent stem cells that are early in the hierarchy of overall prostate tissue stem cells. Understanding the contribution of the two types of P-SCs to prostate development and prostate cancer stem cells and how to manipulate them may open new avenues for control of prostate cancer progression and relapse. Different methods are established for identifying prostate stem cells (P-SCs). However, the relationship of these P-SCs is not fully clear. Sphere-forming cells were from the basal compartment and also formed organoids. However, organoid-derived P-SCs cannot form prostaspheres. The basal P-SCs represent more primitive P-SCs than luminal P-SCs. The finding helps define the hierarchy of P-SCs.
doi_str_mv 10.1074/jbc.M115.661033
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Multiple methods have been used to identify P-SCs in adult prostates. These include in vivo renal capsule implantation of a single epithelial cell with urogenital mesenchymal cells, in vitro prostasphere and organoid cultures, and lineage tracing with castration-resistant Nkx3.1 expression (CARN), in conjunction with expression of cell type-specific markers. Both organoid culture and CARN tracing show the existence of P-SCs in the luminal compartment. Although prostasphere cells predominantly express basal cell-specific cytokeratin and P63, the lineage of prostasphere-forming cells in the P-SC hierarchy remains to be determined. Using lineage tracing with P63CreERT2, we show here that the sphere-forming P-SCs are P63-expressing cells and reside in the basal compartment. Therefore we designate them as basal P-SCs (P-bSCs). P-bSCs are capable of differentiating into AR+ and CK18+ organoid cells, but organoid cells cannot form spheres. We also report that prostaspheres contain quiescent stem cells. Therefore, the results show that P-bSCs represent stem cells that are early in the hierarchy of overall prostate tissue stem cells. Understanding the contribution of the two types of P-SCs to prostate development and prostate cancer stem cells and how to manipulate them may open new avenues for control of prostate cancer progression and relapse. Different methods are established for identifying prostate stem cells (P-SCs). However, the relationship of these P-SCs is not fully clear. Sphere-forming cells were from the basal compartment and also formed organoids. However, organoid-derived P-SCs cannot form prostaspheres. The basal P-SCs represent more primitive P-SCs than luminal P-SCs. 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Multiple methods have been used to identify P-SCs in adult prostates. These include in vivo renal capsule implantation of a single epithelial cell with urogenital mesenchymal cells, in vitro prostasphere and organoid cultures, and lineage tracing with castration-resistant Nkx3.1 expression (CARN), in conjunction with expression of cell type-specific markers. Both organoid culture and CARN tracing show the existence of P-SCs in the luminal compartment. Although prostasphere cells predominantly express basal cell-specific cytokeratin and P63, the lineage of prostasphere-forming cells in the P-SC hierarchy remains to be determined. Using lineage tracing with P63CreERT2, we show here that the sphere-forming P-SCs are P63-expressing cells and reside in the basal compartment. Therefore we designate them as basal P-SCs (P-bSCs). P-bSCs are capable of differentiating into AR+ and CK18+ organoid cells, but organoid cells cannot form spheres. We also report that prostaspheres contain quiescent stem cells. Therefore, the results show that P-bSCs represent stem cells that are early in the hierarchy of overall prostate tissue stem cells. Understanding the contribution of the two types of P-SCs to prostate development and prostate cancer stem cells and how to manipulate them may open new avenues for control of prostate cancer progression and relapse. Different methods are established for identifying prostate stem cells (P-SCs). However, the relationship of these P-SCs is not fully clear. Sphere-forming cells were from the basal compartment and also formed organoids. However, organoid-derived P-SCs cannot form prostaspheres. The basal P-SCs represent more primitive P-SCs than luminal P-SCs. The finding helps define the hierarchy of P-SCs.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>26032419</pmid><doi>10.1074/jbc.M115.661033</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects Adult Stem Cells - cytology
Animals
Cell Biology
Cell Differentiation
cell signaling
Cells, Cultured
Epithelial Cells - cytology
fibroblast growth factor (FGF)
fibroblast growth factor receptor (FGFR)
Homeodomain Proteins - analysis
Male
Mice
Organ Culture Techniques
Phosphoproteins - analysis
prostate
Prostate - cytology
Receptors, G-Protein-Coupled - analysis
Spheroids, Cellular
stem cells
Trans-Activators - analysis
Transcription Factors - analysis
title Prostate Sphere-forming Stem Cells Are Derived from the P63-expressing Basal Compartment
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