Regulation of prostatic carcinoma cell proliferation and secretory activity by extracellular matrix and stromal secretions.

Previous studies from our laboratory have shown that reconstituted basement membrane and stromal secretory products are important regulators of benign prostatic epithelial cell growth and differentiation. In the present study we evaluated the impact of extracellular matrix (ECM) and soluble stromal secretory products on the proliferation and secretory activity of the androgen-responsive prostatic carcinoma cell line LNCaP. In these studies, dihydrotestosterone (DHT) was a potent mitogen for LNCaP cells cultured on plastic or on type I collagen. The growth response to DHT was greatly attenuated when LNCaP cells were grown on prostatic stromal ECM. Cells grown on stromal ECM also exhibited clustered morphology compared to the monolayer growth observed on plastic and secreted elevated levels of prostate specific antigen (PSA) and prostatic acid phosphatase (PAP). These findings indicate that cultivation of LNCaP on stromal ECM will promote the expression of differentiated functions. In additional studies, stromal cell conditioned medium (SCM) significantly increased PSA/PAP secretion by LNCaP cells in the presence of 10 nM DHT. The enhancement of DHT-induced PSA/PAP secretion by SCM was most pronounced when LNCaP cells were grown on stromal ECM. SCM did not significantly alter LNCaP proliferation. These studies indicate that prostatic stromal ECM and soluble secretory products will promote differentiated function in cultured LNCaP cells. In addition, we show that DHT can act as either a growth or differentiation-promoting stimulus depending on the presence of stromal factors.     

Effect of increasing ratio of estrogen: androgen on proliferation of normal human prostate stromal and epithelial cells, and the malignant cell line LNCaP

BACKGROUND: Changes in steroid ratios seen in the aging male are thought to promote prostate disease. The aims of this study were to compare the effects of varied ratios of steroids on growth of normal stromal and epithelial cell isolates, and the prostate cancer cell line, LNCaP. METHODS: The effect of altered steroid ratios on cell proliferation of normal stromal (PrSC) and epithelial (PrEC) prostate cells, and the malignant cell line, LNCaP, were assessed. RESULTS: Increasing the ratios of both estrogen:dihydrotestosterone (DHT) and DHT:estrogen, stimulated PrSC proliferation, with increasing estrogen:DHT having the greatest effect. LNCaP proliferation was increased significantly by both steroids, but altered ratios had no additional effect. PrEC proliferation was unaffected when cells were grown alone, despite presence of androgen receptors (AR) and estrogen receptors (ER). When grown in co-culture PrEC cell proliferation was significantly increased by treatments. CONCLUSIONS: PrSC proliferation is stimulated by an increasing ratio of estrogen:androgen. Proliferation of normal epithelial cells is stimulated as a result of an indirect action of steroids mediated by stromal cells. Malignant prostate cancer cells have an altered response in comparison.     

Evaluation of MENT on primary cell cultures from benign prostatic hyperplasia and prostate carcinoma

7-alpha-Methyl-19-Nortestosterone (MENT) is a synthetic androgen more potent than testosterone (T) and cannot be reduced at 5-alpha position. No important effects of MENT on prostate growth have been reported. However, little is known about the effect of MENT on benign prostatic hyperplasia (BPH) or prostate carcinoma (CaP). We evaluate the effect of MENT, T and dihydrotestosterone (DHT) on secretion, proliferation and gene expression of primary cell cultures from human BPH and CaP. Moreover, the effect of these androgens was examined in the presence of finasteride to determine the influence of the 5-alpha reductase (5-AR) activity on the androgenic potency. BPH and CaP primary cultures were treated with 0, 1, 10 and 100 n m of T, MENT or DHT during 24 and 48 h. Prostate-specific antigen (PSA) was measured by micro particles immunoassay and proliferation rate by spectrophotometric assay (MTT) and by the immunochemical detection of the proliferation marker Ki-67. Gene expression of FGF8b (androgen sensitive gene) was evaluated by semi-quantitative RT-PCR. Results showed that MENT treatments increased PSA secretion and proliferation rate with a potency ranged between T and DHT. Similar effects of MENT were observed in both BPH and CaP cultures. The studies with finasteride showed that in BPH and CaP cells, the conversion of T into DHT significantly contributes to its effect on the proliferation and PSA secretion, and corroborated the resistance of MENT to the 5-AR. The effect of MENT on the gene expression of FGF8b in CaP cells was similar to T and lower than DHT. It is concluded that MENT increases proliferative and secretory activities and gene expression on pathological prostate cells although in less extent than the active metabolite DHT. Furthermore, the fall of endogenous concentration of T during MENT treatment anticipates that this androgen will be of low impact for the prostate.     

E-cadherin expression and PSA secretion in human prostate epithelial cells

Prostate-specific antigen (PSA) is the most widely used marker for the diagnosis of prostate cancer and is an independent predictor of prostatic capsular invasion. A number of studies have identified E-cadherin, a cell adhesion protein, as a potential invasion suppressor which is decreased in prostate adenocarcinoma. Our goal in the present study was to evaluate E-cadherin expression in primary cultures and determine the relationship between E-cadherin expression and PSA secretion in both primary cultures and the prostate tumor cell line, LNCaP. Immunohistochemical studies and Western blot analysis confirmed greater expression of E-cadherin in normal epithelial cells than tumor-derived prostate cells. This is the first report that the incubation of normal prostate epithelial cells with E-cadherin antibody increases the amount of PSA detected in the media of normal cells as well as in LNCaP. Since E-cadherin may function as an invasion suppressor, an understanding of the decreased expression of this adhesion factor and the impact on PSA secretion may aid in understanding epithelial tumorigenesis.     

A simple method for the isolation and culture of epithelial and stromal cells from benign and neoplastic prostates

Objectives. Current primary prostate cell culture techniques use an overnight digestion or extensive media preparation. In this report, we describe a method for the culture of benign and neoplastic cells from human prostatectomy specimens that is rapid and contains no undefined factors in the medium.Methods. Characterization of the human cultured prostate cells was performed using immunohistochemical methods and monoclonal antibodies AE1/AE3 and cytokeratin 8, as well as monoclonal antibodies against prostate-specific antigen (PSA). Polymerase chain reaction was used to measure the exclusive epithelial and stromal cell products, c-met and hepatocyte growth factor (HGF), respectively. Electron microscopy was performed to assess the cell junctions and morphologic features of epithelial cells. Optimum cell growth in different media was tested using a cell replication assay.Results. Microscopic evidence revealed that the cells demonstrate typical epithelial morphology, with polyhedral cells forming tight junctions in a continuous monolayer. Desmosomes were present in electron micrographs of epithelial cells. The cultured epithelial cells described in this report also demonstrate positive cytokeratin staining. The epithelial cells reacted positively with PSA antibody, indicating that the cells retain their secretory role in cell culture for a limited period. Epithelial cells expressed the HGF receptor, c-met; stromal cells secreted HGF. Insulin, transferrin, and selenium increased the growth of cells in the chemically defined media, compared with minimum essential media (MEM) and Ham's F12.Conclusions. In summary, essentially pure cultures of prostate stromal or epithelial cells have been established using simple isolation and culture methods. These cells will be useful for the investigation of related growth factors, such as insulin-like growth factor I and insulin-like growth factor II, and in understanding the basis for stromal-epithelial cell interactions.     

Androgen-deprivation therapy-induced aggressive prostate cancer with neuroendocrine differentiation

Most prostate cancers （PCas） are classified as acinar type （conventional） adenocarcinoma which are composed of tumor cells with luminal differentiation including the expression of androgen receptor （AR） and prostate-specific antigen （PSA）. There are also scattered neuroendocrine （NE） cells in every case of adenocarcinoma. The NE cells are quiesecent, do not express AR or PSA, and their function remains unclear. We have demonstrated that IL8-CXCR2-P53 pathway provides a growth-inhibitory signal and keeps the NE cells in benign prostate and adenocarcinoma quiescent. Interestingly, some patients with a history of adenocarcinoma recur with small cell neuroendocrine carcinoma （SCNC） after hormonal therapy, and such tumors are composed of pure NE cells that are highly proliferative and aggressive, due to P53 mutation and inactivation of the IL8-CXCR2-P53 pathway. The incidence of SCNC will likely increase due to the widespread use of novel drugs that further inhibit AR function or intratumoral androgen synthesis. A phase II trial has demonstrated that platinum-based chemotherapy may be useful for such therapy-induced tumors.     

前列腺增生间质对上皮细胞组织激肽释放酶7表达的影响

目的:研究前列腺增生间质细胞对上皮细胞组织激肽释放酶7(KLK7)表达的影响。方法:分离良性前列腺增生(BPH)组织的间质细胞与上皮细胞,经细胞形态学及化学发光微粒子免疫分析(CM IA)方法证实后,构建上皮/间质细胞共培养模型;分别提取单独、共培养条件下上皮细胞的mRNA与蛋白;RT-PCR检测KLK7mRNA表达变化,W estern印迹检测KLK7基因编码蛋白(hK7)表达的改变。结果:细胞形态学、CM IA结果显示成功分离上皮与间质细胞,并构建前列腺间质/上皮细胞共培养模型;RT-PCR检测发现,KLK7基因mRNA的表达在有间质细胞共培养的上皮细胞中均高于单独培养的上皮细胞。KLK7/GAPDH的灰度比值分别为1.41±0.04、1.78±0.10,具有显著差异(P<0.01);W estern印迹与RT-PCR结果一致。结论:前列腺增生间质细胞抑制上皮细胞KLK7基因表达,KLK7可能是前列腺上皮细胞应对间质细胞调控的一种效应物质。     

Reconstituted basement membrane promotes morphological and functional differentiation of primary human prostatic epithelial cells.

Prostatic epithelial cells undergo rapid proliferation and lose their ability to synthesize and secrete prostate-specific antigen (PSA) and prostatic acid phosphatase (PAP) under standard tissue culture conditions. Herein, we compared the morphology, growth, secretory activity, and intermediate filament expression of human prostatic epithelial cells cultured on either standard tissue culture plastic or reconstituted basement membrane. Epithelial cells grown on plastic exhibited a 10-fold increase in proliferation and a higher percentage of cells in the S-phase of the cell cycle compared to cells cultured on basement membrane. However, cells grown on basement membrane secreted markedly higher levels of PSA and PAP. The basement membrane-induced enhancement of secretory activity was potentiated by dihydrotestosterone (DHT) and prostate stromal cell conditioned medium. Morphological studies showed that cells plated on basement membrane formed organoid-like clusters and maintained several aspects of differentiated epithelium including abundant secretory vesicles, microvilli, and desmosomes with associated cytoskeletal elements. Cultivation of epithelial cells on basement membrane components also suppressed the expression of vimentin, a mesenchymal intermediate filament polypeptide. However, cytokeratin expression was abnormal in cells grown on either surface. These results indicate that the differentiated properties of prostatic epithelial cells are promoted by cultivation on reconstituted basement membrane in the presence of DHT and stromal cell conditioned medium.     

Transition of an androgen-dependent human prostate cancer cell line into an androgen-independent subline is associated with increased angiogenesis

BACKGROUND: Androgen-independent prostate cancer is today an incurable disease, but increased understanding of the mechanisms for the transition into an androgen-independent state may increase the possibilities for more efficient strategies in the future. METHODS: An androgen-independent subline, LNCaP-19, to the androgen-dependent prostate cancer cell line LNCaP was developed in vitro under standard culture conditions. The characteristics of LNCaP-19 regarding androgen responsiveness, PSA, and VEGF secretion was studied in vitro. The growth in vivo and the microvessel density (MVD) of the tumors were studied after inoculation in nude mice. RESULTS: LNCaP-19 grows equally well in dextran-charcoal stripped FBS (DCC-FBS) as in normal FBS, and rapidly gives rise to tumors in both intact and castrated mice, indicating a true androgen-independent growth. The PSA secretion from LNCaP-19 cells was lower than from LNCaP cells, while the VEGF level was comparable to the secretion from LNCaP cells without androgen stimulation. The MVD was increased in the LNCaP-19 tumors, and the vessels also displayed a changed morphology with exclusively small microvessels without lumen. CONCLUSIONS: LNCaP-19 shows characteristics resembling those of androgen-independent prostate cancer. An increased MVD and changed vessel morphology in the tumor, makes it an interesting model system for studies regarding angiogenesis in the context of the acquisition of androgen independence.     

Mixed lineage kinase (MLK) family members are not involved in androgen regulation of prostatic proliferation or apoptosis.

BACKGROUND: Once paracrine growth factors are secreted by androgen receptor expressing prostatic stromal cells, they diffuse across the basement membrane of glandular acini, where they bind to epithelial cell surface receptors. This binding stimulates signaling pathways that regulate both the rate of proliferation and apoptosis of prostate epithelial cells. In the present studies, the role of mixed lineage kinases (MLKs) in these signaling processes were studied using a pharmacological approach. METHODS: The indolocarbazole CEP-1347 (KT 7515) is a potent inhibitor of kinase activity of MKLs. Male rats were treated with CEP-1347 (1 mg/kg of body weight/day) to determine whether inhibition of the MLKs can prevent androgen ablation (i.e. castration) induced apoptosis of prostatic epithelial cells, using as indexes total ventral prostatic DNA content and the percentage of ventral prostatic epithelial cells whose DNA can be terminal transferase end-labeled. In addition, animals previously castrated a week earlier were treated daily with either vehicle or CEP-1347 and exogenous androgen replacement to induce the proliferative re-growth of the prostatic epithelial cells. After 1 week of treatment, the total ventral prostatic DNA content in the vehicle vs. CEP-1347 groups was compared. RESULTS: Using the National Center for Bio-Informatics data bank, MLK2, MLK3, and DLK members of the MLK family are expressed by the normal prostate. Inhibition of the MLKs with CEP-1347 did not affect the kinetics of apoptosis of prostatic epithelial cells induced by androgen ablation. In addition, such MLK inhibition did not prevent androgen replacement induced proliferative regrowth of the prostate epithelium in castrated animals. CONCLUSIONS: Signaling through the MLK family is not involved in either the androgen-induced proliferation or the androgen ablation-induced apoptosis of prostatic epithelial cell in the rat.     

Caveolin expression is decreased following androgen deprivation in human prostate cancer cell lines.

BACKGROUND: Increased expression of caveolin has been associated with prostate cancer progression. In a mouse reconstitution model of prostate cancer, expression of caveolin was inversely related to androgen sensitivity: androgen independent clones had high caveolin expression; low caveolin expression was associated with sensitivity to androgen withdrawal. In contrast, several independent observations support the hypothesis that caveolin functions as a tumor suppressor. METHODS: Caveolin expression was studied by Western blot analysis and/or immunohistochemistry in three androgen-sensitive human prostate cancer cell lines LNCaP, LAPC-4 and LAPC-9, and following acute and chronic androgen deprivation, and in benign prostate epithelial cells. Expression of caveolin, androgen receptor (AR) and prostate specific antigen (PSA) was also examined after reintroduction of androgen. RESULTS: LNCaP grown continuously under androgen-depleted conditions for 6 to 42 months produced several androgen-independent and tumorigenic clones: tumors formed in 13/15 castrate and 7/15 intact male athymic nu/nu mice, but no tumors formed in wildtype LNCaP-bearing animals. Caveolin expression was decreased in every androgen-deprived LNCaP clone and following 150 days of androgen deprivation in LAPC-4. Caveolin expression by LAPC-9 was very low. Following exposure to dihydrotestosterone in vitro, caveolin and PSA expression increased within three days in the androgen-deprived clones of LNCaP. Benign prostate epithelial cells have high caveolin expression. CONCLUSIONS: Unlike the mouse reconstitution model of prostate cancer, the pattern of caveolin expression in benign prostatic epithelium and androgen-sensitive human prostate cancer is consistent with tumor suppressive activity.