Vitamin D3 modulated gene expression patterns in human primary normal and cancer prostate cells

The vitamin D receptor (VDR) is a member of the steroid/retinoid receptor superfamily of nuclear receptors and has potential tumor-suppressive functions in prostate and other cancer types. Vitamin D3 (VD3) exerts its biological actions by binding within cells to VDR. The VDR then interacts with specific regions of the DNA in cells, and triggers changes in the activity of genes involved in cell division, cell survival, and cellular function. Using human primary cultures and the prostate cancer (PCa) cell line, ALVA-31, we examined the effects of VD3 under different culture conditions. Complete G0/G1 arrest of ALVA-31 cells and approximately 50% inhibition of tumor stromal cell growth was observed. To determine changes in gene expression patterns related to VD3 activity, microarray analysis was performed. More than approximately 20,000 genes were evaluated for twofold relative increases and decreases in expression levels. A number of the gene targets that were up- and down-regulated are related to potential mechanisms of prostatic growth regulation. These include estrogen receptor (ER), heat shock proteins: 70 and 90, Apaf1, Her-2/neu, and paxillin. Utilizing antibodies generated against these targets, we were able to confirm the changes at the protein level. These newly reported gene expression patterns provide novel information not only potential markers, but also on the genes involved in VD3 induced apoptosis in PCa.     

PC-1在前列腺癌细胞中促进c-myc基因的表达

前列腺癌相关基因PC-1(Prostate and colon gene1)是属于癌基因D52家族成员,具有促进前列腺癌细胞雄激素非依赖性生长的功能。为了研究PC-1发挥这种生物功能的分子机制,文章在PC-1高表达的LNCaP-pc-1及对照LNCaP-zero细胞中,利用RT-PCR和Western blotting等方法检测c-myc基因表达;提取两细胞胞质和胞核蛋白,利用Western blotting分析c-myc上游调节蛋白β-catenin变化;利用c-Myc蛋白抑制剂10058-F4作用前列腺癌细胞C4-2,Western blotting检测PC-1蛋白表达变化。发现PC-1促进c-myc基因表达,并促进β-catenin入核;c-Myc蛋白抑制剂10058-F4可抑制PC-1的表达。结果表明:PC-1在前列腺癌中促进c-myc基因的表达,并且这种促进作用可能是通过Wnt/β-catenin信号通路实现的。同时,PC-1与c-Myc蛋白间可相互促进,进一步促进前列腺癌细胞雄激素非依赖性生长。     

Anchorage-independent culture maintains prostate stem cells

Freshly isolated mouse prostate epithelial cells regenerate fully differentiated prostate tissue when combined with embryonic urogenital sinus mesenchyme and grafted in vivo. We show here that this regenerative capacity, which has been attributed to a small population of pleuripotential progenitor epithelial cells, is rapidly lost when the cells are placed in monolayer culture but can be maintained by culture in anchorage-independent conditions. Epithelial cells placed in anchorage-independent culture formed proliferating spheres that could be serially passaged and exhibited increased expression of putative stem cell markers as compared to cells grown in monolayer culture. Epithelial cells isolated from the fetal urogenital sinus, the newborn, and adult prostate formed spheres with similar efficiency, while cells isolated from the post-castration prostate exhibited significantly higher sphere-forming abilities. When passaged spheres were recombined with E17 rat urogenital sinus mesenchyme and grafted in vivo, they generated fully differentiated mouse prostate glandular epithelium containing both p63+ basal cells and p63− luminal cells and expressing a variety of prostate-specific and terminal differentiation markers.     

Prospects for gene therapy in human prostate cancer

Prostate cancer is the most common neoplasm in men and a significant cause of mortality in affected patients. Despite significant advances, current methods of treatment are effective only in the absence of metastatic disease. Gene therapy offers a renewed hope of using the differential characteristics of normal and malignant tissue in constructing treatment strategies. Several clinical trials in prostate cancer gene therapy are currently under way, using immunomodulatory genes, anti-oncogenes, tumor suppressor genes and suicide genes. A continued understanding of the etiological mechanisms involved in the establishment and progression of prostate cancer, along with advances in gene therapy technology, should make gene therapy for prostate cancer therapeutically valuable in the future.     

Interactive gene expression pattern in prostate cancer cells exposed to phenolic antioxidants

Dietary phenolic compounds are known to elicite vital cellular responses such as cell cycle arrest, apoptosis and differentiation by activating a cascade of molecular events. As there is an increasing interest to improve the efficacy of these compounds for use as potential chemopreventive agents, we wanted to understand the impact of phenolic compounds on target genes in prostate cancer. In this study we used human cDNA microarrays with 2400 clones consisting of 17 prosite motifs to characterize alterations in gene expression pattern in response to the phenolic antioxidants ellagic acid (EA) and resveratrol (RE). Over a 48-hr exposure of androgen - sensitive LNCaP cells to EA and RE, a total of 593 and 555 genes respectively, showed more than a two fold difference in expression. A distinct set of genes in both EA-and RE-treated cells may represent the signature profile of phenolic antioxidant-induced gene expression in LNCaP cells. Although extensive similarity was found between effects of EA - and RE - responsive genes in prostate cancer cells, out of 246 genes with overlapping responses, 25 genes showed an opposite effect. Quantitative RT-PCR was used to verify and validate the differential expression of selected genes identified from cDNA microarrays. In-depth analysis of the data from this study provided insight into the alterations in the p53 - responsive genes, p300, Apaf-1, NF-kBp50 and p65 and PPAR families of genes, suggesting the activation of multiple signaling pathways that leads to growth inhibition of LNCaP cells. This is a first study to look for changes in a large number of human genes in response to dietary compounds.     

Lestaurtinib inhibits histone phosphorylation and androgen-dependent gene expression in prostate cancer cells

Background

Epigenetics is defined as heritable changes in gene expression that are not based on changes in the DNA sequence. Posttranslational modification of histone proteins is a major mechanism of epigenetic regulation. The kinase PRK1 (protein kinase C related kinase 1, also known as PKN1) phosphorylates histone H3 at threonine 11 and is involved in the regulation of androgen receptor signalling. Thus, it has been identified as a novel drug target but little is known about PRK1 inhibitors and consequences of its inhibition.

Methodology/Principal Finding

Using a focused library screening approach, we identified the clinical candidate lestaurtinib (also known as CEP-701) as a new inhibitor of PRK1. Based on a generated 3D model of the PRK1 kinase using the homolog PKC-theta (protein kinase c theta) protein as a template, the key interaction of lestaurtinib with PRK1 was analyzed by means of molecular docking studies. Furthermore, the effects on histone H3 threonine phosphorylation and androgen-dependent gene expression was evaluated in prostate cancer cells.

Conclusions/Significance

Lestaurtinib inhibits PRK1 very potently in vitro and in vivo. Applied to cell culture it inhibits histone H3 threonine phosphorylation and androgen-dependent gene expression, a feature that has not been known yet. Thus our findings have implication both for understanding of the clinical activity of lestaurtinib as well as for future PRK1 inhibitors.     

Analysis of glutathione transferase P gene regulation with liver cells in primary culture.

Glutathione transferase P (GST-P) gene is specifically and highly activated during rat chemical hepatocarcinogenesis. We have previously cloned the GST-P gene and have identified putative regulatory regions. To further explore regulatory mechanisms, deletion constructs of the GST-P gene fused to the chloramphenicol acetyltransferase (CAT) structural gene were introduced into primary cultured rat hepatocytes by electroporation, and their activity was determined. The expression of the GST-P-CAT fusion gene is quite low in these cells as compared to that in both a rat fibroblast cell line, 3Y1 cells, and a rat hepatoma cell line, dRLh84. The presence of the strong enhancer GPEI did not elicit any enhancing activity at its original position, or when it was located 3' of the CAT gene, although this element does enhance CAT activity significantly when located adjacent to the promoter. Cotransfection of neither c-jun nor c-fos expression vector, nor both vectors, could enhance the CAT activity, even though GPEI consists of two phorbol ester response element-like sites. Furthermore, the expression of jun family gene was not correlated with GST-P gene expression either in primary cultured hepatocytes or in hepatoma cell lines.     

Dynamics of spheroid self-assembly in liquid-overlay culture of DU 145 human prostate cancer cells.

The in vitro self-assembly of multicellular spheroids generates highly organized structures in which the three-dimensional structure and differentiated function frequently mimic that of in vivo tissues. This has led to their use in such diverse applications as tissue regeneration and drug therapy. Using Smoluchowski-like rate equations, herein we present a model of the self-aggregation of DU 145 human prostate carcinoma cells in liquid-overlay culture to elucidate some of the physical parameters affecting homotypic aggregation in attachment-dependent cells. Experimental results indicate that self-aggregation in our system is divided into three distinct phases: a transient reorganization of initial cell clusters, an active aggregation characterized by constant rate coefficients, and a ripening phase of established spheroid growth. In contrast to the diffusion-controlled aggregation previously observed for attachment-independent cells, the model suggests that active aggregation in our system is reaction-controlled. The rate equations accurately predict the aggregation kinetics of spheroids containing up to 30 cells and are dominated by spheroid adhesive potential with lesser contributions from the radius of influence. The adhesion probability increases with spheroid size so that spheroid-spheroid adhesions are a minimum of 2.5 times more likely than those of cell-cell, possibly due to the upregulation of extracellular matrix proteins and cell-adhesion molecules. The radius of influence is at least 1.5 to 3 times greater than expected for spherical geometry as a result of ellipsoidal shape and possible chemotactic or Fr?hlich interactions. Brownian-type behavior was noted for spheroids larger than 30 microm in diameter, but smaller aggregates were more motile by as much as a factor of 10 for single cells. The model may improve spheroid fidelity for existing applications of spheroids and form the basis of a simple assay for quantitatively evaluating cellular metastatic potential as well as therapies that seek to alter this potential.     

Mechanisms for 2-methoxyestradiol-induced apoptosis of prostate cancer cells

Prostate and breast carcinomas are sex hormone-related carcinomas, which are known to be associated with an over-expression of the proto-oncogene Bcl-2. Here, we report that 2-methoxyestradiol (2-ME), an endogenous metabolite of estrogen that does not bind to nuclear estrogen receptors, effectively induces apoptosis in Bcl-2-expressing human prostate and breast carcinoma cells in vitro and in a rat prostate tumor model in vivo. In several cell lines derived from prostate, breast, liver and colorectal carcinomas, 2-ME treatment led to an activation of c-Jun N-terminal kinase (JNK) and phosphorylation of Bcl-2, which preceded the induction of apoptosis. In summary, our data suggest that 2-ME induces apoptosis in epithelial carcinomas by causing phosphorylation of JNK, which appears to be correlated with phosphorylation of Bcl-2.     

Growth factors in human prostate cancer cells: implications for an improved treatment of prostate cancer

It has been previously shown that estrogens may exert their action on human breast cancer cells through coordinated control of secreted growth factors which act in an autocrine and paracrine fashion. Growth stimulation of the androgen receptor negative prostate carcinoma cell line DU-145 by dihydrotestosterone in the presence of the androgen-responsive human prostate carcinoma cell line LNCaP now indicates that androgens may regulate growth of prostate carcinoma cells through related mechanisms. A variety of androgen-regulated growth modulatory activities with autocrine and paracrine potential can be detected in conditioned media from LNCaP cells partially purified by ion exchange chromatography. Androgen-induced growth of LNCaP cells is partially inhibited by the polyanions suramin and dextran sulfates which antagonize growth factor action. These data suggest the existence of at least two different mechanisms of growth regulation by androgen which can be distinguished by their different sensitivity to growth factor inhibitory agents. We conclude that the combination of antipeptidergic substances and androgen withdrawal would represent a new and promising strategy for treatment of human prostate cancer.     

Regulation of migration of primary prostate epithelial cells by secreted factors from prostate stromal cells

Stromal-epithelial interactions, which regulate the migration of prostate epithelial cells, play an important role in prostate development, prostatic hyperplasia, and prostate cancer. The objective of this study was to determine how the prostate stroma stimulates the migration of primary prostate epithelial cells (PECs). In the Boyden chamber assay, PEC migration was strongly induced by the conditioned medium of primary prostate stromal cells (PSC-CM). Stimulation of PEC migration depended on the concerted action of adhesion and motility factors in the PSC-CM. Immobilized proteins from PSC-CM mediated adhesion, spreading, and head-to-tail polarization of PECs. Migration induced by immobilized PSC-CM proteins was significantly increased by hepatocyte growth factor/scatter factor (HGF/SF). Inhibition of P13-kinase or Src-family kinases, but not MEK or PLCchi, abolished migration in the Boyden chamber assay. Consistent with their concerted activity in migration assays, the combination of adhesion and motility factors was required for efficient activation of the P13-kinase/Akt pathway. HGF/SF in the PSC-CM was the principal stimulator of the P13-kinase/Akt pathway and an important mediator of PSC-CM-induced PEC migration. In conclusion, our data show that the migration of primary PECs is regulated by the P13-kinase and Src-family kinase signaling pathways and that the activation of the P13-kinase pathway requires adhesion and motility factors from the prostate stroma.     

Amyloid precursor protein regulates migration and metalloproteinase gene expression in prostate cancer cells

Amyloid precursor protein (APP) is a type I transmembrane protein, and one of its processed forms, β-amyloid, is considered to play a central role in the development of Alzheimer’s disease. We previously showed that APP is a primary androgen-responsive gene in prostate cancer and that its increased expression is correlated with poor prognosis for patients with prostate cancer. APP has also been implicated in several human malignancies. Nevertheless, the mechanism underlying the pro-proliferative effects of APP on cancers is still not well-understood. In the present study, we explored a pathophysiological role for APP in prostate cancer cells using siRNA targeting APP (siAPP). The proliferation and migration of LNCaP and DU145 prostate cancer cells were significantly suppressed by siAPP. Differentially expressed genes in siAPP-treated cells compared to control siRNA-treated cells were identified by microarray analysis. Notably, several metalloproteinase genes, such as ADAM10 and ADAM17, and epithelial–mesenchymal transition (EMT)-related genes, such as VIM, and SNAI2, were downregulated in siAPP-treated cells as compared to control cells. The expression of these genes was upregulated in LNCaP cells stably expressing APP when compared with control cells. APP-overexpressing LNCaP cells exhibited enhanced migration in comparison to control cells. These results suggest that APP may contribute to the proliferation and migration of prostate cancer cells by modulating the expression of metalloproteinase and EMT-related genes.     

Proteomic analysis of cancer stem cells in human prostate cancer cells

Results from recent studies support the hypothesis that cancer stem cells (CSCs) are responsible for tumor initiation and formation. Here, we applied a proteome profiling approach to investigate the mechanisms of CSCs and to identify potential biomarkers in the prostate cancer cell line DU145. Using MACS, the DU145 prostate cancer cell line was isolated into CD44+ or CD44− cells. In sphere culture, CD44+ cells possessed stem cell characteristics and highly expressed genes known to be important in stem cell maintenance. In addition, they showed strong tumorigenic potential in the clonogenic assay and soft agar colony formation assay. We then analyzed and identified proteins that were differentially expressed between CD44+ and CD44− using two-dimensional gel electrophoresis and LC-MS/MS. Cofilin and Annexin A5, which are associated with proliferation or metastasis in cancer, were found to be positively correlated with CD44 expression. These results provide information that will be important to the development of new cancer diagnostic tools and understanding the mechanisms of CSCs although a more detailed study is necessary to investigate the roles of Cofilin and Annexin A5 in CSCs.     

Uterine smooth muscle cells in primary culture

Summary Smooth muscle cells (SMC) were enzymatically isolated from the myometrium of adult rat and human uteri and grown in primary culture. Cell fine structure and cytoskeletal organization were followed by transmission electron microscopy and cytochemical demonstration of actin filaments, microtubules and intermediate filaments, and initiation of DNA synthesis was investigated by thymidine autoradiography. During the first few days in culture the cells spread out on the substrate and went through a morphological transformation including loss of myofilaments followed by formation of an extensive rough endoplasmic reticulum and a large Golgi complex. Actin filaments aggregated in stress fibers spanning the entire length of the cells and microtubules and intermediate filaments formed a radiating system originating in the juxtanuclear region. In vivo, the SMC contained intermediate filaments reactive for desmin, but as early as the first day of culture expressed vimentin as well. For five days at least, all cells remained positive for both proteins, but the staining for desmin decreased while that for vimentin increased. This structural modification was accompanied by initiation of DNA synthesis, with a peak on day 3 (45–55% labeled nuclei). Subconfluent, growth-arrested primary cultures responded weakly to purified platelet-derived growth factor and serum, and in secondary cultures no response to the mitogenic stimulation was obtained. The observations indicate that uterine SMC cultivated in vitro undergo a transformation from contractile to synthetic phenotype, similar to the transformation described previously for arterial SMC under the same conditions. The proliferative potential of the uterine cells is, however, markedly lower. The findings support the notions that the transition into synthetic phenotype is a necessary but not sufficient requirement for initiation of DNA synthesis in SMC and that visceral and vascular SMC represent separate differentiation pathways.     

Serum-free culture conditions for the growth of normal rat mammary epithelial cells in primary culture

Summary A monolayer culture system has recently been developed for the extended growth and serial passage of normal rat mammary epithelial (RME) cells. In this system the cells undergo greater than 20 population doublings when grown on type I collagen-coated tissue culture dishes in Ham's F12 medium supplemented with insulin, hydrocortisone, epidermal growth factor, prolactin, progesterone, cholera toxin, and 5% fetal bovine serum (FBS). The purpose of the present studies was to define additional growth factors that would allow equivalent RME cell proliferation in serum-free medium. Ethanolamine (EA) was effective at reducing the FBS requirements for RME cell proliferation and at its optimum concentration did so by greater than 20-fold. Even with optimum levels of EA there was essentially no cell proliferation in the absence of FBS. However, addition of bovine serum albumin (BSA) to the hormone, growth factor, and EA-supplemented medium resulted in substantial proliferation in the absence of serum, and the further addition of transferrin (T) potentiated this effect. Thus, in this culture system, replacement of FBS with EA, BSA, and T resulted in RME cell proliferation in primary culture which was equivalent to that obtained in the 5% FBS-containing medium. This work was supported by grant RR-05529 from the Division of Research Resources, National Institutes of Health, Bethesda, MD, and by Public Health Service grant CA40064-01 from the National Cancer Institute, Bethesda, MD.