Abstract
Induced pluripotent stem (iPS) cells are a valuable resource for discovery of epigenetic changes critical to cell type-specific differentiation. Although iPS cells have been generated from other terminally differentiated cells, the reprogramming of normal adult human basal prostatic epithelial (E-PZ) cells to a pluripotent state has not been reported. Here, we attempted to reprogram E-PZ cells by forced expression of Oct4, Sox2, c-Myc, and Klf4 using lentiviral vectors and obtained embryonic stem cell (ESC)-like colonies at a frequency of 0.01%. These E-PZ-iPS-like cells with normal karyotype gained expression of pluripotent genes typical of iPS cells (Tra-1-81, SSEA-3, Nanog, Sox2, and Oct4) and lost gene expression characteristic of basal prostatic epithelial cells (CK5, CK14, and p63). E-PZ-iPS-like cells demonstrated pluripotency by differentiating into ectodermal, mesodermal, and endodermal cells in vitro, although lack of teratoma formation in vivo and incomplete demethylation of pluripotency genes suggested only partial reprogramming. Importantly, E-PZ-iPS-like cells re-expressed basal epithelial cell markers (CD44, p63, MAO-A) in response to prostate-specific medium in spheroid culture. Androgen induced expression of androgen receptor (AR), and co-culture with rat urogenital sinus further induced expression of prostate-specific antigen (PSA), a hallmark of secretory cells, suggesting that E-PZ-iPS-like cells have the capacity to differentiate into prostatic basal and secretory epithelial cells. Finally, when injected into mice, E-PZ-iPS-like cells expressed basal epithelial cell markers including CD44 and p63. When co-injected with rat urogenital mesenchyme, E-PZ-iPS-like cells expressed AR and expression of p63 and CD44 was repressed. DNA methylation profiling identified epigenetic changes in key pathways and genes involved in prostatic differentiation as E-PZ-iPS-like cells converted to differentiated AR- and PSA-expressing cells. Our results suggest that iPS-like cells derived from prostatic epithelial cells are pluripotent and capable of prostatic differentiation; therefore, provide a novel model for investigating epigenetic changes involved in prostate cell lineage specification.
Highlights
Induced pluripotent stem cells generated by forced expression of certain transcription factors including Oct4, Klf4, c-Myc, and Sox2 resemble embryonic stem cells (ESCs) in morphology, gene expression, and ability to differentiate into any somatic cell type [1]
SB431542 (Stemgent, San Diego, CA) and PD0325901 (Stemgent) and Thiazovivin (BioVision, Mountain View, CA) were each prepared in DMSO at l0 mM. Induced pluripotent stem (iPS) cells were derived from E-PZ cells (E-PZiPS-like cells) in hESC growth medium mTeSR-1(Stemcell Technologies Inc., Vancouver, Canada) using mouse embryonic fibroblast (MEF) feeder layers (Applied Stem Cell Inc., Menlo Park, CA) and maintained either on MEF feeder layers (Applied Stem Cell Inc.) or on Matrigelcoated tissue culture dishes (ES qualified; BD Biosciences, Bedford, MA) in DMEM/F12 (1:1) medium supplemented with 5 ng/ml basic fibroblast growth factor (PeproTech, Rocky Hill, NJ), 10 ng/ml leukemia inhibitory factor (LIF) (Santa Cruz Biotechnology Inc., Santa Cruz, CA), and 5% knockout fetal bovine serum (FBS) (Invitrogen, Carlsbad, CA)
We chose to reprogram two E-PZ cultures, E-PZ-1 and E-PZ-2, derived from normal peripheral zone prostatic tissues of two men aged 56- and 44-years old, respectively. These primary cultures are a mixture of basal and transit amplifying cells since they express basal epithelial cell markers including cytokeratin 14 (CK14), cytokeratin 5 (CK5) and p63, but not secretory epithelial cell markers such as androgen receptor (AR) and prostate-specific antigen (PSA) [33]
Summary
Induced pluripotent stem (iPS) cells generated by forced expression of certain transcription factors including Oct, Klf, c-Myc, and Sox resemble embryonic stem cells (ESCs) in morphology, gene expression, and ability to differentiate into any somatic cell type [1]. Because these cells, like ESCs, have enormous potential for cell therapy, drug screening and disease modeling, much effort has been invested in generating iPS cells from relevant cell types. No attempt to derive iPS cells from normal human prostatic epithelial cells has been reported
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