Maintenance of adult rat ventral prostate in organ culture

A novel tissue-slice culture model for non-malignant human prostate

A novel tissue culture system was established for modeling the non-neoplastic human prostate in vitro. Precision-cut prostate slices were cultivated in culture plates with a gas-permeable base in a novel serum-free mixture. Cultivated specimens was evaluated by an immunohistochemical analysis of cytokeratins 18 and 14, androgen receptor (AR), prostate specific antigen (PSA), prostate acid phosphatase (PAP), and the endothelial cell marker von Willebrand factor. Epithelial viability in the presence and absence of dihydrotestosterone (DHT) was also assessed. Satisfactory maintenance of glandular cytoarchitecture was observed in the presence of DHT with approximately half of the glands displaying a columnar or cuboidal phenotype and an intact layer of basal cells. In the absence of DHT, the corresponding percentage was significantly lower. The occurrence of involutive changes and epithelial cell death was significantly higher in the absence of DHT. Glandular and stromal cells maintained their capacity to express AR. PSA and PAP were expressed throughout the culture period, albeit at a lower level than in uncultured tissue. The viability of endothelial cells differed markedly between individual samples. During culture, the tissue slices became covered with epithelial cells originating from glands that were cut open during tissue slicing. This cell layer consisted of a stratified basal compartment overlaid by cells with a luminal phenotype. The present culture system provides a novel in vitro setting in which to study normal human prostate biology and pathobiology and may help to obviate problems related to the use of established cancer cell lines and animal models.

PRL signal transduction in the epithelial compartment of rat prostate maintained as long-term organ cultures in vitro

Using long-term organ cultures of rat prostate tissue explants, we previously demonstrated that PRL both stimulates proliferation and acts as an androgen-independent suppressor of apoptosis in prostate epithelial cells, leading to epithelial hyperplasia. In this work we delineate intracellular signaling molecules activated by PRL in prostate tissue to identify candidate signaling proteins that are responsible for maintaining survival and proliferation of prostate epithelium in androgen-deprived growth environment. We now show that signal transducer and activator of transcription-5a (Stat5a) and Stat5b become tyrosine phosphorylated in response to PRL stimulation in rat prostate using prostate organ culture as an experimental model. Stat5 was translocated to the nuclei of epithelial cells of prostate tissue as demonstrated by immunohistochemistry. Furthermore, EMSA showed PRL-inducible binding of Stat5a homodimers and Stat5a/5b heterodimers to the PRL response element of the beta-casein gene promoter. Signaling molecules Stat3, Stat1, MAPK, or protein kinase B, which can be activated by PRL in other target cells, were not activated by PRL in prostate tissue. Furthermore, we show that Stat5a and Stat5b are continuously phosphorylated in rat prostate in vivo, although they are expressed to varying degree in separate lobes of rat prostate. Collectively, our results suggest that PRL signaling in rat prostate tissue is primarily transduced via Stat5a and Stat5b. The Stat5 pathway represents one candidate signaling mechanism, used by PRL and possibly other growth factors and cytokines, that supports the viability of prostate epithelial cells during long-term androgen deprivation.

Prolactin is a survival factor for androgen-deprived rat dorsal and lateral prostate epithelium in organ culture

PRL is one of several polypeptide factors that regulate growth and differentiation of prostate epithelium besides steroid hormones. This hormone may also participate in the development of pathologic changes of the prostate, as evidenced by marked prostate hyperplasia in hyperprolactinemic mice. We have previously demonstrated expression of PRL receptors and androgen-dependent local production of PRL in rat and human prostate epithelium, suggesting the existence of an autocrine loop. We now show that PRL acts as a survival factor for epithelial cells of rat dorsal and lateral prostate but not ventral prostate, using long-term organ cultures as an in vitro model. Culture of prostate explants in androgen-free medium was associated with a transient surge of apoptosis during the first 2-4 days of culture in rat ventral, dorsal, and lateral prostate tissues, as quantified by either nuclear morphology or in situ DNA fragmentation analysis. PRL significantly inhibited apoptosis in androgen-deprived dorsal and lateral prostate cultures, by 40-60%, as determined by the two methods. The present study has established conditions and methodology for analysis of apoptosis in organ cultures of rat prostate and suggests a physiological role for PRL as a survival factor for prostate epithelium.

Rat prostate explants in serum-free organ culture: a comparison of two media and gas mixtures

BACKGROUND

Urologists are looking for a way to easily discriminate between aggressive and very slow-growing prostate tumors. A sound way to appreciate such developing activities would be to identify an appropriate cell marker in prostate explants maintained in a defined culture system.

METHODS

Different biological parameters were compared in rat prostate explants cultured for 5 days in rich CMRL or basic Leibovitz's L-15 medium, unsupplemented with serum, under a mixture of either 95% air/5% CO2 or 50% N2/45% O2/5% CO2.

RESULTS

DNA synthesis was somewhat similar with the two-gas combination, but was higher in explants maintained in L-15 medium than in CMRL. Hence, L-15 medium and the 95% air/5% CO2 mixture were selected. Under these defined conditions for 5 days, cells were still able to synthesize DNA and proteins while preserving their morphological integrity and maintaining alkaline and acid phosphatase activities.

CONCLUSIONS

Since the present culture system works well in a controlled environment and under such minimal conditions, it appears to be a reliable and promising model that will provide basic data and allow the study of hormones and growth factors involved in prostatic tissue growth. It might eventually permit the identification of a cell marker.

Prolactin and prolactin receptors are expressed and functioning in human prostate

Prolactin is widely expressed in different tissues, and it is presumed to have both local and systemic actions. In males it is known to influence reproductive functions but the significance and mechanisms of prolactin action in male accessory reproductive tissues are poorly understood. Here we show that prolactin acts as a direct growth and differentiation factor for human prostate, as measured by changes in DNA synthesis and epithelial morphology of organ cultures. Furthermore, we report the expression in human prostate of a short prolactin receptor form in addition to the long form, based upon ligand cross-linking studies and RT-PCR analysis of mRNA expression. The highest density of prolactin receptors was detected in the secretory epithelial cells by immunohistochemistry. Finally, we report that prolactin is locally produced in human prostate epithelium, as evidenced by marked prolactin immunoreactivity in a significant portion of prostate epithelial cells, with parallel expression of prolactin mRNA in human prostate. Collectively, these data provide significant support for the existence of an autocrine/paracrine loop of prolactin in the human prostate and may shed new light on the involvement of prolactin in the etiology and progression of neoplastic growth of the prostate.

The effects of insulin, transferrin and androgens on rat prostate explants in serum-free organ culture

A model previously developed in our laboratory to culture rat prostate explants in serum-free chemically-defined medium was used to evaluate the direct influence of potential regulators. The aim of the present work was to verify the effects of insulin (I) and transferrin (Tr), two hormones considered as essential in other serum-free culture systems, and three androgenic hormones, since the prostate is known to be androgen-dependent. Explants of rat prostate were cultured for five days in serum-free Leibovitz's L-15 medium (37 degrees C, 95% air-5% CO2). The addition of Tr (50 micrograms/ml) had no effect, but I (5 micrograms/ml) significantly increased DNA synthesis. This influence was amplified by combination of the two hormones. However, protein synthesis was only slightly stimulated. Testosterone (T) or androstanediol significantly increased DNA synthesis when compared to corresponding control values at five days. In combination with I plus Tr, each hormone showed potentiated effects, particularly T with a twofold increase over day 0 values. When dihydrotestosterone was added singly, the incorporation of 3H-thymidine was stimulated by 300% over control values at five days, and by 100% over values in uncultured explants. This influence was maximal since it was not improved by I plus Tr. Protein synthesis was increased significantly by the triple combination. In addition, each androgen as well as the combination of I plus Tr had a positive influence on explant morphology. The above conditions optimize the present culture system and establish its usefulness as a valuable tool to study the direct influence of different effectors in prostate metabolism and to eventually identify putative cancer markers.

Analysis of cell death and cell proliferation in embryonic stages, normal adult, and aging prostates in human and animals

Homeostasis in the prostate is recognized to be maintained by a complex interplay between the opposing actions of cell proliferation and cell death. Growth regulatory factors that promote or inhibit cell proliferation and promote cellular death have been identified in the prostate. The integration of these forces involves cellular cooperation between the prostatic stroma and epithelium. Hormone-regulated production of growth regulatory factors by one cell type may determine growth stimulation, inhibition, or cell death in a reciprocal cell partner. Imbalance between net cell proliferation and net cell death rates may result in abnormal growth leading to BPH. Additional study of the growth regulatory factors associated with distal vs. proximal epithelial cells and stroma and comparison of growth factor expression by the neonatal, postnatal growing, adult quiescent, and aging prostates will likely provide further insight into the regulation of prostate cell division and death.

Effects of prolactin on explant cultures of rat ventral prostate: morphological and immunohistochemical study

Specimens derived from rat ventral prostate were cultured by an explant culture technique using differents concentrations of ovine prolactin. Sacrificed explants embedded on paraffin were sectioned for morphologic and immunocytochemical studies using antibodies against prostatic acid phosphatase, prostatic specific antigen, and wide-spectrum monoclonal keratin. Prolactin significantly stimulated the growth of these cells in the concentration range of 1 x 10(-2) ui/ml, but was inhibitory at a concentration of 1 and 0.1 ui/ml. The 1 x 10(-3) and 1 x 10(-4) ui/ml prolactin concentrations demonstrated the preservation of a glandular epithelium with a columnar shape, similar to the normal appearance of ventral prostate from rats.

LY207320 (6-methylene-4-pregnene-3,20-dione) inhibits testosterone biosynthesis, androgen uptake, 5 alpha-reductase, and produces prostatic regression in male rats

LY207320 is an in vitro inhibitor (estimated IC50 = 0.06 microM) of steroid 5 alpha-reductase that catalyzes the conversion of testosterone (T) to dihydrotestosterone (DHT). In contrast, LY207320 was only moderately active against rat prostatic 5 alpha-reductase in vivo (32% inhibition at 50.0 mg/kg single dose). LY207320 did, however, inhibit the in vivo uptake of [3H]-T by the prostate. The antiprostatic and endocrine effects of this agent were evaluated following daily (21 days) administration to castrated, androgen-supplemented castrate, and intact rats. LY207320, which has modest progestational competitive binding activity, does not bind to rat prostatic androgen or uterine estrogen cytosolic receptors. In the castrated male rat, subcutaneously (s.c.) administered LY207320 had no androgen agonist activity, as evidenced by a lack of accessory sex organ weight gains. Administration of s.c. LY207320 to intact rats for 21 days at doses greater than 5.0 mg/kg-day produced significant (P < 0.05) reductions of seminal vesicle and ventral prostatic weights (maximal regression = -65% and -40% from control values, respectively at 50.0 mg/kg-day). The compound had no regressive activity on male accessory sex organs when administered orally. LY207320 did not alter circulating prolactin, LH, or corticosterone levels, but at high doses (> or = 50.0 mg/kg-day), lowered circulating T[-67% from intact control levels (P < 0.05)]. Histological analysis of the rat ventral prostates (RVPs) in LY207320-treated rats was consistent with an androgen-deprived state. Decreased circulating androgens and prostatic regression are associated with inhibition of testicular 17 alpha-hydroxy/C17,20-lyase enzyme activity (IC50 = 0.06 microM). These findings support the contention that LY207320 is a physiological antagonist of androgen action in male rats, and that its effects are mediated primarily through inhibition of testicular androgen production rather than accessory sex organ 5 alpha-reductase.

Morphometric and stereological study of the glandular epithelium of the lateral prostate of the intact and castrated guinea pig

The glandular epithelium of the lateral prostate of the guinea pig was described within the framework of a morphometric model in terms of relative densities and absolute dimensions. A combination of direct measurement and point and intersection counting techniques was used. The quantitative data generated in the intact animals were compared with those of castrated controls. Castration was accompanied by a significant decrease in height of the glandular epithelium and in sizes of secretory and basal cells and their corresponding nuclei. On a per cell basis, significant decreases in total volume and surface area of granular endoplasmic reticulum were detected after castration. This was accompanied by a significant reduction in the total volume of Golgi cisternae. The total volume, surface area, and number of highly electron-dense and clear granules decreased significantly compared with the intact control animals. However, no significant changes in these parameters of low electron-dense granules were found. Significant reductions in the total volume and surface area of condensing granules, lysosomes, and mitochondria, but not their number, were detected. The average sizes of condensing granules, secretory granules, lysosomes, and mitochondria were decreased significantly after castration. The present study showed that the alterations in the secretory function of the secretory cells of the lateral prostate was reflected by the quantitative changes in granular endoplasmic reticulum, Golgi complexes, and secretory granules on a per cell basis. The data generated in the present study will serve as a baseline for further studies of the lateral prostate of the guinea pig.

Role of calcium in the programmed death of rat prostatic glandular cells

By using a newly developed and validated rat ventral prostatic organ culture system in which prostatic glandular cells can be induced to undergo programmed cell death, the role of an elevation in the intracellular free Ca2+ concentration in this death process was studied. By using this organ culture system, ventral prostatic glandular epithelial cells can be maintained in culture for a period of more than 14 days with a low daily rate of cell death (i.e., approximately 5% die per day) if androgen is included in the media. In contrast, if androgen is not included in the media, the daily rate of prostatic glandular cell death increases approximately 3-fold (i.e., approximately 15% die per day). With this organ culture system it has been demonstrated that the daily rate of programmed death of the glandular epithelial cells can be shifted from 5% to 15% of the cells dying per day when testosterone and 10 microM of the Ca2+ ionophore A23187 are both present in the media. Thus, when the intracellular free Ca2+ is elevated within prostatic cells by means of ionophore treatment, the daily rate of glandular cell death in the presence of testosterone is identical to that induced when testosterone is not present in the media. If the organ cultures are maintained in media lacking testosterone but containing 10 microM of the Ca2+ channel blocker nifedipine to inhibit elevations in the intracellular free Ca2+ derived from the extracellular pools, the rise in the daily rate of cell death from 5 to 15% of the cells dying per day induced by androgen ablation can be inhibited by approximately 70%. These results suggest that an increase within prostatic glandular cells in their intracellular free Ca2+ derived from extracellular Ca2+ pools is a critical early event involved in triggering the subsequent process of programmed cell death (i.e., specifically DNA fragmentation) in these cells following androgen ablation.

Stereological changes in rat ventral prostate induced by melatonin

Effects of melatonin on the ventral prostate of castrated rats supplemented with testosterone were studied using light microscopy. Stereological measurements were made of volume fractions of acini and stroma and surface fractions of glandular epithelium. From these figures and the weights of the glands, the volumes and surface areas were calculated, as well as the mean epithelial heights, mean acinar diameters, and mean distances between glandular acini. Doses of melatonin were varied, to verify its physiological and pharmacological effects. Castration without hormonal treatments produced atrophic changes, with decreases in acinar and stromal volume and widenings in the mean distances between the acini. None of these measurements differed among intact controls, sham-operated controls, and testosterone-supplemented castrated rats. In the castrated rats receiving both testosterone and melatonin, however, there were changes according to the doses of melatonin given. The animals receiving low doses of melatonin (50 and 400 micrograms daily) showed significant decreases in the volumes of the stroma and epithelium and the height of the epithelium. These stereological changes occurred without a significant reduction in the prostatic weights. The animals receiving the higher dose (800 micrograms daily) of melatonin showed no difference in any measurement compared with those of the testosterone-supplemented castrated rats. In rats receiving 2,000 micrograms of melatonin daily, there were significant reductions in the weights of the prostates and the volumes of the acini. These results suggest a direct action of melatonin on the ventral prostate, and the effects depend on the dose given.

Influences of dihydrotestosterone, testosterone, estradiol, progesterone, or prolactin on the cell kinetics of human hyperplastic prostatic tissue in organ culture

In an effort to characterize the hormone sensitivity of human benign prostatic hyperplasia (BPH) maintained in organ cultures for 12-72 h, the influence of 5-alpha-dihydrotestosterone (DHT), testosterone (T), 17-beta-estradiol (E2), progesterone (Pg), or prolactin (PRL) was assessed on the cell proliferation rate of 25 BPH specimens by the use of tritiated thymidine incorporation followed by autoradiography. Significant increases in the thymidine-labeling index (TLI: percentage of labeled nuclei) were observed in glandular tissue after a 36-h incubation period in presence of DHT, E2, Pg, or PRL in 52%, 44%, 28%, and 60% of BPH cases, respectively. Nonparametric statistics (Spearman and Kendall rank correlation tests) have shown that 1) the steroid-induced TLI increases are dependent on the basal rate of cell proliferation, while the PRL-induced effect is independent of it, and 2) all the steroid-mediated effects on BPH TLI are correlated together, whereas they seem to be independent of the PRL-induced TLI increase. When T was compared with DHT on nine BPH specimens, three were found to be sensitive to both hormones, and two responded to DHT only. We propose that our study methods are suitable as a means to assess the hormone sensitivity of individual cases of BPH and possibly prostatic tumors.

Interaction of male and female sex hormones in cultured rat prostate

The organ culture of the rat ventral prostate was chosen as a model to determine whether any of the estrogen effects in vivo on the prostate are direct and expressed at the hormone concentrations normally found in the male. During 2 weeks of culture, estradiol at the high concentration of 10(-5) M blocked the androgenic activation of [3H]thymidine incorporation into DNA. The inhibition was localized in epithelium. Protein content of testosterone-treated explants and the accumulation of prostatein in the medium were considerably decreased, indicating inhibition of secretion. Antiandrogenic effects were not seen in morphology of estrogen-treated explants. The lower concentrations (from 10(-9) M to 10(-6) M) of estradiol increased the volume density of epithelium from day 7 onwards. The height of epithelium was concomitantly increased. The volume density of epithelium as well as the percentage of acini with metaplastic changes were significantly increased. These epithelial changes were less pronounced in the presence of androgen, suggesting that physiological concentrations of androgen prevent the expression of estrogen action in the morphology of the prostate. A change in staining with peanut (PNA)- and wheat germ agglutinin (WGA)-lectins indicated defective secretory capacity in metaplastic epithelium. In spite of the increased protein content in the explants, no constant pattern of the changes in prostatein accumulation could be recorded. Although the concentrations of estrogen required to induce squamous metaplasia were still unphysiological, the occurrence of this abnormal differentiation of the prostatic epithelium suggests that the cooperative action of estrogen is involved in androgen-dependent normal epithelial growth and possibly also in promoting growth of prostatic neoplasia.