Proximal location of mouse prostate epithelial stem cells: a model of prostatic homeostasis

Stem cells are believed to regulate normal prostatic homeostasis and to play a role in the etiology of prostate cancer and benign prostatic hyperplasia. We show here that the proximal region of mouse prostatic ducts is enriched in a subpopulation of epithelial cells that exhibit three important attributes of epithelial stem cells: they are slow cycling, possess a high in vitro proliferative potential, and can reconstitute highly branched glandular ductal structures in collagen gels. We propose a model of prostatic homeostasis in which mouse prostatic epithelial stem cells are concentrated in the proximal region of prostatic ducts while the transit-amplifying cells occupy the distal region of the ducts. This model can account for many biological differences between cells of the proximal and distal regions, and has implications for prostatic disease formation.     

Ductal heterogeneity of cytokeratins, gene expression, and cell death in the rat ventral prostate.

The rat ventral prostate is a complex gland composed of numerous ducts. The epithelial cells that line the lumen of the ducts are surrounded by stromal cells. The epithelial cells display a characteristic morphology that is dependent on their anatomical location within the ducts; the cells that line the lumen in the region of the ducts close to the urethra (the proximal region) are cuboidal, while those in the distal regions of the ducts are tall columnar cells. We have examined the regional expression of two genes that are expressed in the prostate: prostate steroid-binding protein (PSBP; a marker for androgen-dependent protein synthesis) and TRPM-2 (a marker for programmed cell death). We have demonstrated that the expression of PSBP, in the presence of androgens, and TRPM-2, in the absence of androgens, is restricted to the luminal epithelial cells in the distal regions of the prostatic ducts. Neither of the genes is expressed in the proximal regions of the ducts. In view of the probable effects of the epithelial-stromal interactions in the gland we have also characterized the cytokeratin composition of the epithelial cells lining the prostatic ducts. We have established that the basal epithelial cells of the prostate are primarily localized in the proximal region of the ducts. We propose that these cells may attenuate the influence of the stromal cells on the luminal epithelium and exert a negative influence on the cytodifferentiation of the secretory epithelial cells. The results also suggest that PSBP, which has been considered to be an androgen-dependent gene may, in fact, be a sequence that is constitutively expressed in the luminal cells that die in the absence of androgens. This has significant implications on the mechanism of androgen action in the rat ventral prostate.     

Stromal-epithelial interactions and heterogeneity of proliferative activity within the prostate

Growth and functional activity within the prostate gland is known to be regulated by androgens whose effects are thought to be mediated via androgen receptors. This concept has been derived in large part through analysis of whole organ homogenates, an approach which ignores potential heterogeneity of biological activity within the gland and the importance of cell-cell interactions. In this review recent findings are summarized which demonstrate that growth of the prostatic ductal network during prepubertal periods, as well as during prostatic regeneration in androgen-treated adult castrates, is nonuniform, with ductal growth being highest at the ductal tips and much lower in proximal ducts closer to the urethra. Androgen dependency for maintenance of ductal architecture following castration follows a similar pattern in that castration results in total destruction of distal ductal architecture, while proximal ducts are maintained albeit in an atrophic state. Thus, striking differences in biological properties are found in distal versus proximal prostatic ducts. Morphogenesis, growth, and secretory cytodifferentiation within the developing prostate is elicited by androgens which act via mesenchymal-epithelial interactions. Through analysis of chimeric prostates constructed with androgen-receptor-positive wild-type mesenchyme and androgen-receptor-negative Tfm (testicular feminization) bladder epithelium, it is now evident that androgenic effects can be elicited in androgen-receptor-deficient (androgen-insensitive) Tfm prostatic epithelium, provided that the connective tissue component of the chimeric prostate is wild type. This observation has been made for both the developing and adult prostate. From this data it is evident that certain androgenic effects (ductal morphogenesis, epithelial growth, and secretory cytodifferentiation) do not require the presence of intraepithelial androgen receptors.(ABSTRACT TRUNCATED AT 250 WORDS)     

Transforming growth factor-beta 1 induces apoptosis independently of p53 and selectively reduces expression of Bcl-2 in multipotent hematopoietic cells

Transforming growth factor-beta1 (TGF-beta1) can inhibit cell proliferation or induce apoptosis in multipotent hematopoietic cells. To study the mechanisms of TGF-beta1 action on primitive hematopoietic cells, we used the interleukin-3 (IL-3)-dependent, multipotent FDCP-Mix cell line. TGF-beta1-mediated growth inhibition was observed in high concentrations of IL-3, while at lower IL-3 concentrations TGF-beta1 induced apoptosis. The proapoptotic effects of TGF-beta1 occur via a p53-independent pathway, since p53(null) FDCP-Mix demonstrated the same responses to TGF-beta1. IL-3 has been suggested to enhance survival via an increase in (antiapoptotic) Bcl-x(L) expression. In FDCP-Mix cells, neither IL-3 nor TGF-beta1 induced any change in Bcl-x(L) protein levels or the proapoptotic proteins Bad or Bax. However, TGF-beta1 had a major effect on Bcl-2 levels, reducing them in the presence of high and low concentrations of IL-3. Overexpression of Bcl-2 in FDCP-Mix cells rescued them from TGF-beta1-induced apoptosis but was incapable of inhibiting TGF-beta1-mediated growth arrest. We conclude that TGF-beta1-induced cell death is independent of p53 and inhibited by Bcl-2, with no effect on Bcl-x(L). The significance of these results for stem cell survival in bone marrow are discussed.     

Wolffian duct differentiation by physiological concentrations of androgen delivered systemically

In developing mammalian males, conversion of the Wolffian ducts into the epididymides and vasa deferentia depends on androgen secretion by the testes, whereas in females these ducts remain in a vestigial form or regress. However, there is continuing uncertainty whether the androgen needs to be delivered locally, either by diffusion from the adjacent testis or, by secretion into the lumen of the duct, or whether circulating androgens maintain and virilize the Wolffian ducts. To resolve this uncertainty, we transplanted either day 0-2 or day 8-9 post-partum testes beneath the flank skin of three groups of neonatal (days 0-1) female tammar wallabies, where they developed and secreted physiological levels of hormones. The Wolffian ducts of all these females were retained and had formed extensive epididymides when examined at days 25, 34 and 87 after birth. In the two older groups of females, sampled after the time of prostatic bud formation, the urogenital sinus was virilized and there was extensive prostatic development similar to that of normal males of the same age, showing that androgen secretion had occurred. Virilization of the Wolffian ducts occurred during an early but short-lived window of sensitivity. This study provides the first clear evidence that under physiological conditions virilization can be mediated by circulating androgen.     

A quantitative matrigel assay for assessing repopulating capacity of prostate stem cells

Homeostasis of prostate tissue is maintained by stem cells, although such cells have not been well characterized. Here, we report establishment of such a method using matrigel. Matrigel containing a single-cell suspension from adult prostatic cells was subcutaneously grafted into the flank of nude mice. Prostatic duct-like structures derived from donor tissue were observed in the gel 2 weeks after transplantation. Luminal and basal cells observed in the gel expressed several markers characteristic of prostatic and/or epithelial cells. When a mixture with both EGFP-positive and negative prostate cells was transplanted, prostatic ducts consisted of either EGFP-positive or negative cells and chimeric patterns were rarely observed, suggesting that ducts were reconstituted from a single cell. Stem cell number and function were also evaluated by competition with control cells. Overall this method revealed that cells localized in the proximal portion in prostate ducts had higher reconstitution capacity than those in the distal portion. We conclude that prostate stem/progenitor cells exist and that our method is applicable to analysis of prostate stem cells, epithelial mesenchyme interactions, and prostate cancer stem cells.     

Generation of active TGF-beta by prostatic cell cocultures using novel basal and luminal prostatic epithelial cell lines

Two prostatic epithelial lines, one of basal origin and one of luminal origin, were established from the dorsolateral prostates of p53 null mice. The cell lines are nontumorigenic when inoculated subcutaneously under the renal capsule or intraprostatically in syngeneic mice. The luminal cell line (PE-L-1) expresses cytokeratins 8 and 18 and the basal cell line (PE-B-1) expresses cytokeratins 5 and 14. The basal cells require serum for growth, whereas the luminal cells grow only in serum-free medium. Both cell lines require the presence of growth factors for optimal growth in culture, with EGF and FGF-2 having the greatest effect on the growth rate. Both lines express androgen receptor (AR) mRNA and protein. Androgen stimulates growth of the basal cell line, indicating that the ARs are functional, whereas growth of the luminal cells is unaffected by androgens. The luminal line is significantly inhibited by exogenous TGF-beta and produces low levels of endogenous TGF-beta. In contrast, the basal cell line produces significant amounts of TGF-beta and its growth is not influenced by this cytokine. Coculture of luminal cells with prostatic smooth muscle cells results in the generation of increased levels of biologically active TGF-beta, indicating a paracrine mechanism of TGF-beta activation that may be involved in the maintenance of normal prostatic function. To our knowledge this is the first report describing both basal and luminal prostatic cell lines from a single inbred animal species and the first indication that prostatic epithelial and stromal cells interact to generate the biologically active form of TGF-beta. These lines will provide an important model for determining basal/luminal interactions in both in vitro and in vivo assays.     

Morphological and histological study of castration-induced degeneration and androgen-induced regeneration in the mouse prostate

Degenerative and regenerative changes in the ductal architecture of the ventral and dorsolateral prostates (VP and DLP) of the adult mouse were investigated in microdissected specimens over a time-course of 14 days following castration and subsequently during 14 days of administration of testosterone propionate. After castration, about 35% of the ductal tips and branch-points were lost in distal regions (usually near the capsule) in both prostatic lobes. By contrast, in more proximal regions of the prostate (closer to the urethra), the ducts survived in an atrophic condition. The ductal morphology that had been lost in the distal regions completely regenerated after testosterone propionate was administered to the castrated males. In the VP, androgen replacement simply returned the gland to its former size with moderate ductal distension; in the DLP, excessive epithelial infoldings and ductal distension were elicited in the distal regions of the ducts after 14 days of treatment with testosterone propionate. These results suggest that androgenic responsiveness and dependency are different in distal versus proximal ducts. Distal ducts are exquisitely androgen-dependent and androgen-sensitive; in proximal regions, androgen-dependency is not as strict.     

Evidence for a Discriminatory Action of Androgenic Steroids on the Synthesis of Nucleolar Ribonucleic Acids in Prostatic Nuclei

Testosterone, when injected into castrated rats, enhances theRNA-synthesizing activity of isolated prostatic nuclei. Thenearest-neighbor frequency and base composition of RNA synthesizedunder the influence of androgens are completely different fromthose of control castrates. These effects of androgens in vivocan be abolished by low concentrations of actinomycin D addedto the RNA-synthesizing systems or injected into the experimentalanimals. Only about 1% of total prostatic nuclear chromatinparticipates in the synthesis of RNA by prostatic nuclei ofcontrol castrated rats. The androgen-provoked enhancement ofRNA-synthesis occurred at a separate and small (1% or less)region of nuclear DNA. The androgen-sensitive region of DNAhas a strikingly high content of deoxycytidylyl (3',5')-deoxyguanosinedinucleotide sequence: 24 and 2 times, respectively, that ofpurified rat DNA and of the DNA region which functions as templatefor RNA-synthesis after animals are deprived of androgens. Fromthe available information, it was concluded that androgen selectivelyenhanced the synthesis of RNA at nucleolar and/or perinucleolarregions of prostatic chromatin.     

Transforming growth factor beta-dependent sequential activation of Smad, Bim, and caspase-9 mediates physiological apoptosis in gastric epithelial cells

Transforming growth factor beta (TGF-beta) has been implicated in the maintenance of homeostasis in various organs, including the gastric epithelium. In particular, TGF-beta-induced signaling was shown to be required for the differentiation-associated physiological apoptosis of gastric epithelial cells, but its mechanism has not been well understood. In this study, the molecular mechanism of TGF-beta-induced apoptosis was analyzed in a human gastric epithelial cell line, SNU16, as an in vitro model. Expression of Smad7 and Bcl-X(L), but not viral FLIP, was shown to prevent TGF-beta-induced apoptosis, indicating an exclusive requirement of the activation of Smad signaling pathway and mitochondrial dysfunction followed by activation of caspase-9. In addition, treatment with TGF-beta induced binding of Bim, a proapoptotic Bcl-2 homology domain 3 (BH3)-only protein, to Bcl-X(L), which is dependent on the activation of Smad, and reduction in the expression of Bim by RNA interference decreased the sensitivity to TGF-beta-induced apoptosis. Moreover, we found abnormalities in the gastric epithelium of both Bim and caspase-9 knockout mice; these abnormalities were associated with a defect of physiological apoptosis in gastric epithelial cells. These results indicate for the first time that TGF-beta is involved in the physiological loss of gastric epithelial cells by activating apoptosis mediated by Smad, Bim, and caspase-9.     

前列腺癌雄激素受体和PI3K/Akt信号通路相互作用研究进展

前列腺癌的发生、进展依赖于雄激素,因此去势手术成为治疗晚期前列腺癌的标准疗法。但是去势后大多前列腺癌最终将转化为雄激素非依赖性前列腺癌,甚至进展为激素难治性前列腺癌,使得肿瘤的进展不受低水平雄激素的影响。即使如此,大多数激素非依赖性前列腺癌,依然阳性表达雄激素受体。因而雄激素受体在前列腺癌发生发展中起着重要作用。而PI3K/Akt信号通路能够通过维持细胞生存、抑制细胞凋亡、促进细胞代谢及血管生成等促进前列腺癌进展。本综述旨在总结前人研究,阐述雄激素受体和PI3K/Akt信号通路之间相互作用关系。研究表明Akt信号通路能够正性或者负性调控AR蛋白表达、蛋白的稳定性及其转录活性,从而维持细胞的生存、代谢。而AR即可以通过基因转录途径抑制Akt活化又能通过非转录基因途径激活Akt及其下游蛋白。因此,AR和Akt信号通路相互协同促进前列腺癌的发生及其向雄激素非依赖性前列腺癌进展。     

Whole-mount autoradiography study of DNA synthetic activity during postnatal development and androgen-induced regeneration in the mouse prostate

Ventral and dorsolateral prostatic lobes (VP and DLP), obtained from mice at different ages and at different intervals after castration or treatment of castrated males with testosterone propionate (TP), were microdissected into two-dimensional arrays and incubated in vitro with 14C-thymidine. Labeled whole-mount specimens were fixed and dried onto glass slides, dipped into photographic emulsion, and processed autoradiographically. The morphological pattern of DNA synthetic activity was similar in the VP and DLP. During early postnatal periods (10-15 days after birth), DNA synthetic activity was highest at the distal ductal tips (near the capsule) and considerably lower in proximal ducts (near the urethra). At 30 days of age, DNA synthesis was almost totally confined to the distal ducts, with exceedingly low labeling in the proximal ductal areas. In the prostate of the intact or castrated adult, DNA synthesis was nearly absent throughout the gland, but silver grains were still observed on the ductal tips. During androgen-induced prostatic regeneration, DNA synthesis was detectable only in distal ducts 24 h after TP was administered. Labeling intensity reached a maximum on the third day of TP treatment in both distal and proximal ductal areas, thereafter, it subsided to focal labeling confined mostly to distal ducts. These results demonstrate that levels of DNA synthetic activity vary considerably within the prostate on a regional basis. Explanation of this heterogeneity in DNA synthetic activity within the prostate gland is fundamental to understanding the mechanism of androgenic regulation of prostatic growth and development.     

Inhibition of transforming growth factor beta signaling in MCF-7 cells results in resistance to tumor necrosis factor alpha: a role for Bcl-2.

Transforming growth factor beta (TGF-beta) is a multifunctional cytokine capable of regulating diverse cellular processes. In this study we investigated the effect of autocrine TGF-beta signaling on tumor necrosis factor (TNF) alpha-induced cell death. We abrogated the TGF-beta autocrine loop by overexpression of a truncated TGF-beta type II receptor in MCF-7 breast carcinoma cells and found that this generated resistance to TNF-alpha-induced cytotoxicity. To elucidate the molecular basis of the influence of TGF-beta on TNF-alpha-induced cytotoxicity, we evaluated the expression levels or activities of proteins involved in TNF-alpha signal transduction or the regulation of apoptosis in general in TGF-beta-responsive and TGF-beta-nonresponsive MCF-7 cells. We observed no significant difference in the expression of TNF-alpha receptors or the TNF receptor-associated death domain protein. In addition, downstream activation of nuclear factor kappaB by TNF-alpha was not altered in cells that had lost TGF-beta responsiveness. Analysis of members of the Bcl-2 family of apoptosis-regulatory proteins revealed that Bcl-X(L) and Bax expression levels were not changed by disruption of TGF-beta signaling. In contrast, the TGF-beta-nonresponsive cells expressed much higher levels of Bcl-2 protein and mRNA than did cells with an intact TGF-beta autocrine loop. Furthermore, restoration of a TGF-beta signal to MCF-7 cells that had spontaneously acquired resistance to TGF-beta caused a reduction in Bcl-2 protein expression. Taken together, our data indicate that loss of autocrine TGF-beta signaling results in enhanced resistance to TNF-alpha-mediated cell death and that this is likely to be mediated by derepression of Bcl-2 expression.     

Studies on the regulation of the concentration of androgens and androgen receptors in nuclei of prostatic cells.

Experiments were performed to assess the effect of intracellular androgen metabolism and the availability of cytoplasmic receptors on the concentration of androgens and androgen receptors in nuclei of prostatic cells. It was found that androgens are incorporated into the nucleus by a regulated, selective process which appears to limit the type and amount of androgen transported across the nuclear membrane. The metabolic conversion of testosterone to dihydrotestosterone which takes place in cytoplasm does not reduce transport and, very likely, affects only the ratio of testosterone and dihydrotestosterone transferred into the nucleus. In vivo, when the intranuclear concentration of androgens approaches 250 nM (8 pmol per mg DNA), an apparent concentration ceiling is reached even in the presence of a downward concentration gradient that would be expected to promote further transport across the nuclear membrane. This finding strongly suggests that in vivo the nuclear membrane acts as a barrier to the passage of androgens and, therefore, mitigates against the possibility that passive diffusion is an important mechanism of afferent transport of androgens into the nucleus. The ability of the nucleus to concentrate testosterone and dihydrotestosterone was clearly demonstrated in vivo when cytoplasmic concentrations of androgens of approximately 20 nM were accompanied by intranuclear concentrations in the vicinity of 250 nM. Since the measured concentration of testosterone and dihydrotestosterone in prostate of several species fall within the 5-20 nM range, it is evident that androgen concentrations in the nucleus as high as 250 nM may be typical of the physiological steady state. At the latter concentration the nucleus contains 60 000 androgen molecules: in approximate terms one third of this total is bound to a large molecular weight component of the nucleus, one third is bound to a 3.3 S receptor and one third is free or loosely bound. Since 60 000 androgen molecules and 20 000 receptor molecules appear in the nucleus before transport stops, it seems that the quantity of 4.4 S cytoplasmic receptor estimated at 174 plus or minus 24 pmol per mg protein (equivalent to about 8000 molecules per cell) is insufficient to account for the total influx of androgens and androgen receptors into the nucleus. Thus, although these results support the view that cytoplasmic receptors and the capacity to transport androgens are closely linked phenotypic markers of intracellular steroid hormone action, they suggest that the control of androgen concentration in the nucleus is achieved in a more intricate fashion than simply through a dependence on the presumed translocation of 4.4 S androgen-receptor complex into the nucleus.