Qifa Wang

ANDROGEN RESPONSIVENESS OF STROMAL CELLS OF THE HUMAN PROSTATE: REGULATION OF CELL PROLIFERATION AND KERATINOCYTE GROWTH FACTOR BY ANDROGEN

PURPOSE Growth and development of the prostate are androgen dependent and mainly influenced by stromal-epithelial interaction. It is believed that indirect androgenic activation of paracrine factors like keratinocyte growth factor (KGF) in the prostatic stroma influences the growth of epithelial cells. In this study we investigated the role androgen plays in stromal cell growth and stimulation of KGF in the human prostate. MATERIALS AND METHODS Stromal cells were derived from explant primary culture of human normal or benign prostatic tissue. The effect of different dihydrotestosterone (DHT) concentrations on cell proliferation was measured using 3[H]thymidine incorporation assay. The effect of DHT on levels of KGF protein was determined by Western blotting. The effect of DHT on levels of KGF gene expression was measured by various cycles of polymerase-chain-reaction (PCR) and multiplex PCR. RESULTS Characterization of stromal cells showed epithelial cells less than 9.5% in all passages. DHT stimulated human prostate stromal cells in a dose dependent fashion over a concentration range of 0.001-10 nM. Immunocytochemical evaluation of KGF after DHT exposure showed a higher staining intensity. Relative quantitation of Western blotting showed a 1.93-fold increase in KGF protein in the androgen treated stromal cells. At 1 nM DHT conventional and multiplex PCR revealed a significant stimulation of the KGF mRNA expression. CONCLUSIONS These data show for the first time that androgen stimulates cell proliferation as well as KGF protein and gene expression in human prostate stromal cells. This supports the hypothesis that androgen-induced stromal-derived KGF stimulates prostate epithelial cell growth.

Immunolocalization of the keratinocyte growth factor in benign and neoplastic human prostate and its relation to androgen receptor.

Growth and development of the prostate are androgen‐dependent. Keratinocyte growth factor (KGF), widely expressed by mesenchymal cells, is thought to act like an andromedin between stroma and epithelium of the prostate. Since KGF has recently emerged as an autocrine mediator in prostate cancer, we investigated the role KGF plays in the human prostate and its relationship to androgen receptor (AR).

IDENTIFICATION OF AN ACTIVIN-FOLLISTATIN GROWTH MODULATORY SYSTEM IN THE HUMAN PROSTATE: SECRETION AND BIOLOGICAL ACTIVITY IN PRIMARY CULTURES OF PROSTATIC EPITHELIAL CELLS

PURPOSE To determine if the activin/follistatin system is present in human prostate tissue and primary cultures of prostatic epithelium and if these growth factors play a role in the control of epithelial cell growth. MATERIALS AND METHODS Cells derived directly from human prostates were studied to determine: a) if they secrete activin and follistatin, and b) if they are growth inhibited by activin. Primary cell cultures were established from tissues removed from 13 unselected prostate carcinoma patients in order to examine the secretion of activin and follistatin and test the effects of these proteins on cell proliferation. RESULTS Both primary explant cells and epithelial cells isolated and sub-cultured from explant cultures secreted activin A and follistatin. Treatment of cultured cells with recombinant human activin A resulted in a dose-dependent inhibition of thymidine incorporation, with an IC50 of 0.22 nM. Recombinant follistatin neutralized the inhibitory effects of activin A on cell proliferation whilst adding follistatin alone enhanced thymidine incorporation, suggesting a similar neutralizing effect on the endogenous activin produced by these cells. CONCLUSION These results demonstrate that cells derived from human prostate tissue secrete activin and follistatin and, as observed in human prostate cancer cell lines, activin inhibited the growth of prostatic epithelial cells. Also consistent with our earlier studies of prostate cancer cell lines, the biological activity of activin was neutralized by follistatin. These observations support the hypothesis that the activin/follistatin system plays an important role in the local regulation of human prostate cell growth.

REGULATION OF KERATINOCYTE GROWTH FACTOR RECEPTOR AND ANDROGEN RECEPTOR IN EPITHELIAL CELLS OF THE HUMAN PROSTATE

PURPOSE Stromal-epithelial interactions of growth factors and the androgen receptor may have implications for the pathophysiology of benign and neoplastic transformation of the human adult prostate. We investigated a possible interaction of keratinocyte growth factor with its receptor as well as with the androgen receptor signaling pathway in human prostatic epithelial cells. MATERIALS AND METHODS Human prostatic epithelial cells were obtained from explant primary culture, established in DU145 cell conditioned medium and maintained in keratinocyte serum-free medium with supplements. Epithelial cells were characterized by light and electron microscopy, and immunocytochemical study using epithelial and mesenchymal markers. Androgen receptor, keratinocyte growth factor receptor and keratinocyte growth factor messenger RNA expression was measured by polymerase chain reaction (PCR). The response to 0.01 to 10 nM. dihydrotestosterone, 10 microM. flutamide and 1 to 1,000 ng./ml. keratinocyte growth factor was tested by [3H] thymidine assay. The difference in keratinocyte growth factor receptor and androgen receptor gene expression after treatment with and without keratinocyte growth factor and flutamide were determined by quantitative multiplex PCR and quantitated using densitometry analysis. RESULTS Immunocytochemical and electron microscopy characterization revealed typical epithelial differentiation. PCR showed keratinocyte growth factor receptor and androgen receptor expression in epithelial cultured cells but no keratinocyte growth factor expression. Epithelial cells showed a significant time and dose dependent stimulation of cell proliferation with keratinocyte growth factor and dihydrotestosterone (p <0.05). When combined with the anti-androgen flutamide the effect of 100 ng./ml. keratinocyte growth factor was significantly decreased (p <0.05). At 100 ng./ml. keratinocyte growth factor quantitative multiplex PCR revealed stimulated keratinocyte growth factor receptor and androgen receptor messenger RNA expression. CONCLUSIONS These results show that keratinocyte growth factor up-regulates the keratinocyte growth factor and androgen receptors in the absence of androgen. Thus, the androgen signaling pathway may be activated by growth factors such as keratinocyte growth factor in an androgen deficient environment.

CHARACTERIZATION OF A STROMAL CELL MODEL OF THE HUMAN BENIGN AND MALIGNANT PROSTATE FROM EXPLANT CULTURE

PURPOSE There is a lack of suitable in vitro models for the human prostate. To study stromal-epithelial interactions, we established stromal cells in cultures from benign and malignant prostate tissue that resemble more closely the in vivo conditions of the human prostate. MATERIALS AND METHODS Stromal cells were obtained from explant primary culture, established in DU145 cell conditioned medium and maintained in RPMI-fetal bovine serum (FBS) supplemented with insulin, transferrin and selenium (ITS). Proliferation studies to compare different media were performed using a 3[H]thymidine assay. Stromal cells were characterized by immunocytochemistry using epithelial and mesenchymal markers. Morphology was evaluated by electron microscopy, light and phase-contrast microscopy. Androgen receptor (AR) mRNA expression was measured by polymerase-chain-reaction (PCR). The response to different concentrations of dihydrotestosterone (DHT) and the antihormones flutamide and hydroxyflutamide was tested by 3[H] thymidine assay. RESULTS Microscopic evaluation revealed typical stromal morphology with elongated cell shapes, cilia, collagen and microfilaments. Immunocytochemical characterization revealed typical fibroblastic and smooth muscle differentiation. ITS supplemented in RPMI-FBS showed the best growth stimulation compared with other serum-free media (p <0.05) and became our basal medium. The presence of DU145 cell conditioned medium in this basal medium showed a significant increase in cell proliferation in stromal cells. Stromal cells maintained AR mRNA expression and significant DHT dose dependent growth stimulation in up to 10 passages. Both the antiandrogens flutamide and hydroxyflutamide counteracted the DHT effect (p <0.05). CONCLUSIONS This stromal cell model maintains many cellular and functional properties of the human prostate, which may enable us to study growth factor modulation, drug and hormone metabolism in stromal-epithelial interaction with emphasis on the pathogenesis of BPH and prostate cancer.

Studies on the differentiation pathway and growth characteristics of epithelial culture cells of the human prostate

We established explant primary cultures in order to study the growth and hormone responsiveness, and the differentiation process of prostatic epithelial cells. Cell outgrowth was achieved from explant tissue by using a new DU145-cell-conditioned medium and special plastic coverslips. To define the present model, proliferation assays were tested by [3H]thymidine assay and planimetric analysis. Cells were analyzed using immunocytochemistry, light, phase contrast and electron microscopy, polymerase chain reaction, telomerase ELISA and immunoassay (PSA). Morphology and electron microscopy revealed typical epithelial differentiation. Immunocytochemistry showed the content of basal and secretory epithelial cells, endocrine paracrine cells and a high level of proliferation. With increasing culture time, mature epithelial differentiation (PSA) increases and the initial increase of α-smooth muscle actin (α-SMA) decreases again. After further passaging, α-SMA expression is no longer detected and PSA expression decreases. Furthermore, epithelial cells showed both androgen responsiveness and androgen receptor expression. These findings show the presence of epithelial cells in a process of differentiation with endocrine paracrine cells and a high level of proliferation. This model may maintain the cellular and functional properties more closely related to the human prostate and may provide a valuable tool for studying stem cells and differentiation characteristics.