Differential regulation of androgen receptors in the separate rat prostate lobes: androgen independent expression in the lateral lobe

In order to understand the hormonal regulation of androgen receptors (AR) in the separate lobes of the rat prostate gland, the present study examined AR levels in the ventral, dorsal and lateral prostate lobes as a function of androgen withdrawal to complete prostatic regression and subsequent testosterone replacement. In the intact rat, the 3 prostate lobes contained significantly different amounts of androgen binding sites. Mean number of total cellular AR in the ventral, dorsal and lateral lobes was 7370, 1690, and 1015 fm/mg DNA, respectively. These receptors were primarily localized within the nuclear fraction of homogenized tissue: ventral, 86%; dorsal, 83%; and lateral, 100% nuclear localization. Androgen withdrawal was initiated via castration and rats were sacrificed 1, 2, 3, 5, 7, 10 and 14 days thereafter. Nuclear AR levels fell rapidly to 5, 24 and 30% of intact values by 48 h in the ventral, dorsal and lateral lobes, respectively. Levels of nuclear AR continued to decline in the ventral and dorsal lobes to undetectable levels by Day 10. In marked contrast, lateral lobe nuclear AR began to increase on Day 3 postcastration, reaching intact values by Day 7 and 133% intact levels by Day 14. Cytosolic AR in the ventral and dorsal lobes initially increased following castration, but subsequently declined to low levels by Day 14. Cytosolic AR were not detectable in the lateral prostate at any time point following castration. To determine the nuclear AR response to testosterone at this time, 14 day castrate rats were given 2 cm testosterone implants and sacrificed 1, 3, 5, 7, 10 and 14 days thereafter. As expected, nuclear AR rapidly returned in the ventral and dorsal lobes by Day 1 and reached a plateau by Day 5. A short term response to androgen exposure occurred in the lateral lobe where an immediate 9-fold increase in nuclear AR quantity was observed; however, these levels rapidly declined to pre-implant values by Day 5 and remained at that level despite continued exposure to testosterone. These f findings indicate that while nuclear AR levels in the ventral and dorsal prostate are primarily regulated by androgens, a testosterone-independent component exists within the lateral lobe.     

Intratesticular androgen levels, androgen receptor localization, and androgen receptor expression in adult rat Sertoli cells

In the rat, quantitatively normal spermatogenesis is maintained only when intratesticular testosterone (ITT) levels greatly exceed the peripheral T concentration. When ITT concentrations fall below a threshold, germ cells are lost at specific stages of the seminiferous cycle. Germ cells can be restored by high doses of T that binds to androgen receptors (AR) in Sertoli cells. However, the relationships between germ cell dynamics, AR-mediated molecular events, and ITT concentrations are not established. ITT levels may regulate germ cell life and death through an effect on AR localization and AR mRNA or protein levels within Sertoli cells at specific stages of the cycle. We determined AR localization and mRNA and protein expression in adult rat Sertoli cells in relation to reduced and then restored ITT concentrations in vivo. ITT levels were reduced by implanting rats with T- and estradiol (E)-filled capsules for 7-28 days and subsequently restored with large T-filled capsules. AR is normally localized within Sertoli cell nuclei at stages VII-VIII of the seminiferous epithelium. After T/E treatment, AR immunostaining in Sertoli cell nuclei became nondetectable by 14-28 days but was restored 6 h following T restoration. The loss of Sertoli cell nuclear AR localization correlated with increasing numbers of apoptotic germ cells. AR mRNA levels in isolated Sertoli cells did not change through 14 days of T/E treatment, increased significantly by Day 28, and remained elevated 24 h after T restoration. AR mRNA levels in microdissected tubules at stages II-IV, VI-VIII, and IX-XII did not decrease through 14 days of T/E treatment. In contrast, AR protein levels were reduced in seminiferous tubules by Day 14 and in testes at Day 28 post-T/E treatment but were restored within 24 h by T repletion. Therefore, the reduction of ITT concentration results in a time-dependent redistribution of AR and reduced AR protein but not AR mRNA levels in Sertoli cells. Repletion of T restored AR protein and it relocated to Sertoli cell nuclei. By an unknown mechanism, T regulates AR localization within Sertoli cells to determine germ cell life or death.     

Morphological and immunohistochemical comparison of three rat prostate lobes (lateral, dorsal and ventral) in experimental hyperprolactinemia

The prolactin plays an important role in the regulation of growth and differentiation of prostate gland besides androgens. The goal of this study was to reveal the influence of elevated prolactin concentration on epithelial cells of prostate. We compared the morphology of epithelial cells of prostate dorsal, lateral and ventral lobes and expression of androgen receptors in these cells in rats with hyperprolactinemia and in control rats. We used sexually mature male Wistar rats. The experimental rats received metoclopramide; the control group received saline in the same way. The prostate dorsal, lateral and ventral lobes were collected routinely for light and electron microscopy. The intensity of immunohistochemical reaction of androgen receptor in epithelial cells of dorsal, lateral and ventral lobes was evaluated by measure of optical density with computer image analysis. The light and electron (transmission and scanning) microscopes were used for morphological observations. Results: In experimental rats twofold increase in prolactin and twofold decrease in testosterone found. In experimental group the expression of androgen receptor was lower in columnar epithelial cells of dorsal and ventral lobes but higher in lateral one. We observed morphological abnormalities in columnar epithelial cells of lateral and dorsal lobes. The columnar epithelial cells of ventral lobes didn't show any morphological changes in hyperprolactinemia.     

Regulation of gene expression in rat prostate by androgen and beta-adrenergic receptor pathways

Denervation of rat ventral prostate has been accomplished by excising prostatic tissue fragments and implanting them under the renal capsules of intact syngeneic rats. This resulted in a substantial reduction of expression of a major organ-specific secretory protein, prostatic binding protein (PBP). The depressed level of PBP and its subunits and mRNAs could be restored, however, to as much as 80% of control levels by the administration of a pharmacological dose of exogenous androgen, testosterone propionate (TP), and/or a beta-adrenergic agonist, isoproterenol (ISO). Furthermore, compared to ascorbate-treated controls, TP and ISO increased the synthesis of total cellular protein and PBP by the prostatic renal implants. TP and/or ISO also remodelled the luminal epithelial structure and elevated secretory functions. ISO alone had no effect, however, in castrated animals, indicating that androgen plays a dominant role in the restoration of tissue PBP content. Concomitant to increased PBP content and remodelling of prostatic histomorphology, androgen was also found to raise the depressed levels of beta 2-adrenergic and androgen receptors in the prostatic isografts maintained in intact hosts. In contrast, although an established rat prostatic epithelial cell line (NbE-1) contains high affinity androgen receptor, androgen failed to restore beta-adrenergic receptor as well as PBP content in this cultured cell line. These results, taken together, suggest that a tight coupling between androgen receptor and beta 2-adrenergic receptor pathways may be a prerequisite for PBP expression and functional differentiation in the rat ventral prostate gland.     

Effects of androgen receptor and androgen on gene expression in prostate stromal fibroblasts and paracrine signaling to prostate cancer cells

The androgen receptor (AR) is expressed in a subset of prostate stromal cells and functional stromal cell AR is required for normal prostate developmental and influences the growth of prostate tumors. Although we are broadly aware of the specifics of the genomic actions of AR in prostate cancer cells, relatively little is known regarding the gene targets of functional AR in prostate stromal cells. Here, we describe a novel human prostate stromal cell model that enabled us to study the effects of AR on gene expression in these cells. The model involves a genetically manipulated variant of immortalized human WPMY-1 prostate stromal cells that overexpresses wildtype AR (WPMY-AR) at a level comparable to LNCaP cells and is responsive to dihydrotestosterone (DHT) stimulation. Use of WPMY-AR cells for gene expression profiling showed that the presence of AR, even in the absence of DHT, significantly altered the gene expression pattern of the cells compared to control (WPMY-Vec) cells. Treatment of WPMY-AR cells, but not WPMY-Vec control cells, with DHT resulted in further changes that affected the expression of 141 genes by 2-fold or greater compared to vehicle treated WPMY-AR cells. Remarkably, DHT significantly downregulated more genes than were upregulated but many of these changes reversed the initial effects of AR overexpression alone on individual genes. The genes most highly effected by DHT treatment were categorized based upon their role in cancer pathways or in cell signaling pathways (transforming growth factor-β, Wnt, Hedgehog and MAP Kinase) thought to be involved in stromal-epithelial crosstalk during prostate or prostate cancer development. DHT treatment of WPMY-AR cells was also sufficient to alter their paracrine potential for prostate cancer cells as conditioned medium from DHT-treated WPMY-AR significantly increased growth of LNCaP cells compared to DHT-treated WPMY-Vec cell conditioned medium.     

Purification and characterization of the untransformed androgen receptor in rat prostate

The isolation and characterization of the untransformed form of androgen receptors has not yet been successful, owing to their inherent lability as well as to their ready proteolysis. In this study, we have stabilized rat prostate androgen receptors by sodium molybdate and by rapid filtration on phosphocellulose. Proteases were inhibited by bacitracin, aprotinin, leupeptin and PMSF. Under these conditions the untransformed complex was purified approx 3000-fold, corresponding to 18% yield, by differential chromatography on DEAE cellulose and phosphocellulose gels. The partially purified receptor has the same ionic characteristics as the original untransformed receptor of crude cytosol; in addition, it possesses a Stokes' radius of 75 A, as determined by Sephacryl S-300 gel filtration, a sedimentation coefficient of 8.8S, a calculated molecular weight of 275 kDa and a friction coefficient of 1.6. The [3H]R1881 receptor complex was specific to androgens since unlabelled R1881 and dihydrotestosterone were able to completely displace bound [3H]R1881, whereas estradiol, cortisol, and triamcinolone acetonide did not compete. The purified complex was a multimer dissociable by 0.6 M KCl, resulting in a form migrating in the 4S area on sucrose density gradient. After treatment with 0.5% formaldehyde, three forms were obtained, migrating in the areas of 8-9, 5-6 and 3-4S respectively, of a sucrose density gradient containing 0.6 M KCl. This is the first step towards the purification to homogeneity of the untransformed androgen receptor.     

The relative thickness of intracellular membranes in epithelial cells of the ventral lobe of the rat prostate

Synopsis The relative thickness of intracellular membranes of epithelial cells in the ventral lobe of the rat prostrate was measured by a densitometric method. Glutaraldehyde perfusion followed by ruthenium tetroxide immersion fixation appeared to be the most suitable method for membrane thickness measurements. By thickness, the membranes could be roughly subdivided into three groups. The inner and outer membranes of the mitochondrion made up the thinnest membranes of the cell. The second group of membranes consisted of the membranes of the rough-surfaced endoplasmic reticulum and the Golgi apparatus, the different faces of the latter organelle, and the Golgi vesicles. The thickest group of membranes included those of the cell membrane, secretory granules, condensing vacuoles, lysosomes, autophagic vacuoles and multivesicular bodies. The differences in thickness of the membranes are probably due to the varying protein/lipid ratio, and the qualities and proportions of the different lipids in the membranes.     

Purification and characterization of the androgen receptor from rat ventral prostate

The androgen receptor has been purified from rat ventral prostate cytosol by a combination of differential DNA-Sepharose 4B chromatography and testosterone 17 beta-hemisuccinyl-3,3'-diaminodipropylamine-Sepharose 4B affinity chromatography. Approximately 8 micrograms of protein was obtained from 38 g of rat ventral prostate, with a yield of 24%. The receptor was purified approximately 120 000-fold. Silver nitrate staining of a sodium dodecyl sulfate (NaDodSO4)-polyacrylamide gel revealed a major polypeptide band migrating at 86 000 daltons. Affinity labeling of a partially purified receptor preparation with either 17-hydroxy-17 alpha-[3H]methyl-4,9,11-estratrien-3-one or 17 beta-hydroxy-[1,2,4,5,6,7,16,17-3H8]-5 alpha-androstan-3-one 17-(2-bromoacetate) produced a major band of radioactivity migrating at 86 000 daltons on a NaDodSO4 gel. Under nondenaturing conditions, a Mr of 85 000 was determined by gel filtration (42 A) and sucrose gradient sedimentation analysis (4.5 S). The purified receptor had an isoelectric point of 6.3 [3H]-4,5 alpha-Dihydrotestosterone, bound to the purified receptor, was displaced with 4,5 alpha-dihydrotestosterone greater than testosterone much greater than progesterone greater than 5 alpha-androstane-3 alpha, 17 beta-diol greater than 17 beta-estradiol greater than cortisol. A number of physicochemical properties of the purified receptor were similar to those of the receptor in crude cytosol.     

Calpain-mediated androgen receptor breakdown in apoptotic prostate cancer cells

Since androgen receptor (AR) plays an important role in prostate cancer development and progression, androgen-ablation has been the frontline therapy for treatment of advanced prostate cancer even though it is rarely curative. A curative strategy should involve functional and structural elimination of AR from prostate cancer cells. We have previously reported that apoptosis induced by medicinal proteasome-inhibitory compound celastrol is associated with a decrease in AR protein levels. However celastrol-stimulated events contributing to this AR decrease have not been elucidated. Here, we report that a variety of chemotherapeutic agents, including proteasome inhibitors, a topoisomerase inhibitor, DNA-damaging agents and docetaxel that cause cell death, decrease AR levels in LNCaP prostate cancer cells. This decrease in AR protein levels was not due to the suppression of AR mRNA expression in these cells. We observed that a proteolytic activity residing in cytosol of prostate cancer cells is responsible for AR breakdown and that this proteolytic activity was stimulated upon induction of apoptosis. Interestingly, proteasome inhibitor celastrol- and chemotherapeutic drug VP-16-stimulated AR breakdown was attenuated by calpain inhibitors calpastatin and N-acetyl-L-leucyl-L-leucyl-L-methioninal. Furthermore, AR proteolytic activity pulled down by calmodulin-agarose beads from celastrol-treated PC-3 cells showed immunoreactivity to a calpain antibody. Taken together, these results demonstrate calpain involvement in proteasome inhibitor-induced AR breakdown, and suggest that AR degradation is intrinsic to the induction of apoptosis in prostate cancer cells.     

Pomegranate polyphenols down-regulate expression of androgen-synthesizing genes in human prostate cancer cells overexpressing the androgen receptor

Prostate cancer is dependent on circulating testosterone in its early stages and is treatable with radiation and surgery. However, recurrent prostate tumors advance to an androgen-independent state in which they progress in the absence of circulating testosterone, leading to metastasis and death. During the development of androgen independence, prostate cancer cells are known to increase intracellular testosterone synthesis, which maintains cancer cell growth in the absence of significant amounts of circulating testosterone. Overexpression of the androgen receptor (AR) occurs in androgen-independent prostate cancer and has been proposed as another mechanism promoting the development of androgen independence. The LNCaP-AR cell line is engineered to overexpress AR but is otherwise similar to the widely studied LNCaP cell line. We have previously shown that pomegranate extracts inhibit both androgen-dependent and androgen-independent prostate cancer cell growth. In this study, we examined the effects of pomegranate polyphenols, ellagitannin-rich extract and whole juice extract on the expression of genes for key androgen-synthesizing enzymes and the AR. We measured expression of the HSD3B2 (3beta-hydroxysteroid dehydrogenase type 2), AKR1C3 (aldo-keto reductase family 1 member C3) and SRD5A1 (steroid 5alpha reductase type 1) genes for the respective androgen-synthesizing enzymes in LNCaP, LNCaP-AR and DU-145 human prostate cancer cells. A twofold suppression of gene expression was considered statistically significant. Pomegranate polyphenols inhibited gene expression and AR most consistently in the LNCaP-AR cell line (P=.05). Therefore, inhibition by pomegranate polyphenols of gene expression involved in androgen-synthesizing enzymes and the AR may be of particular importance in androgen-independent prostate cancer cells and the subset of human prostate cancers where AR is up-regulated.     

Effects of androgen on androgen receptor expression in rat testicular and epididymal cells: a quantitative immunohistochemical study

Androgen is essential for maintenance of spermatogenesis in the testis and for maturation of spermatozoa in the epididymis. The effects of androgen are mediated through its receptor (AR), the levels of which are, in turn, regulated by androgen. Previous studies have shown that AR concentrations in Leydig and Sertoli cells are differentially regulated during development. The aim of the present study was to determine if cell-type-specific regulation of AR by androgen occurs in testicular and epididymal cells during adulthood. Adult male rats were treated with the LHRH-antagonist Azaline B (100 g/day) by osmotic pump for 1, 2, 3, 4, or 8 wk to suppress endogenous androgen, with identical numbers of intact control animals at each time period. An androgen replacement group was simultaneously treated with the antagonist and a synthetic androgen, 7 alpha-methyl-19-nortestosterone (MENT), during the final 4 wk of the experiment. Levels of nuclear AR protein in specific cell types were quantified by immunohistochemistry in conjunction with computer-assisted image analysis. Levels of AR in testicular cells declined sharply after treatment with the LHRH antagonist. In Sertoli cells, nuclear AR levels decreased to 8% of control (P < 0. 01) after 4 wk treatment; and to 12% and 17% of control (P < 0.01) in Leydig and myoid cells, respectively. Androgen replacement resulted in complete recovery of nuclear AR levels in Sertoli cells (93%, P > 0.05) but in only partial recovery in myoid (69%, P < 0. 01) and Leydig cells (56%, P < 0.01). In the epididymis, tubular epithelial cells and stromal cells differed in their responses to the LHRH antagonist. After 1 wk, nuclear AR levels in caput stromal cells decreased dramatically to 34% of control (P < 0.01) and in cauda stromal cells to 43% (P < 0.01). In contrast, the decline of AR levels in epididymal epithelial cells was not as dramatic as that in stromal cells. After 1 wk, the decline in the caput and cauda was to 87% and 76% of control, respectively. After 8 wk, nuclear AR levels in stromal cells further declined to 1.1% in caput and 1.4% in cauda, whereas in the epithelial cells, a smaller decline in nuclear AR was noted (to 30% in the caput and 45% in the cauda). After androgen replacement with MENT, nuclear AR levels recovered to more than 90% of control in both epididymal cell types. These results indicate that AR levels in the nuclei of adult Sertoli cells depend mainly on the level of androgen, whereas in the adult Leydig and myoid cells, the androgen dependency is more limited. The results also indicate that in the epididymis, stromal cells are more sensitive than epithelial cells to the regulation of AR levels by androgen.     

Enhancement of androgen receptor expression induced by (R)-methanandamide in prostate LNCaP cells

It has been recently shown that cannabinoids may regulate the growth of many cell types. In the present work we examined the effect of the anandamide analogue (R)-methanandamide (MET) on androgen-dependent prostate LNCaP cell growth. We found that 0.1 microM MET had a mitogenic effect measured by [(3)H]thymidine incorporation into DNA. The effect exerted by MET was blocked by the cannabinoid receptor antagonists SR141716 (SR1) and SR144528 (SR2) as well as by the phosphoinositide 3-kinase (PI3K) inhibitor LY294002, suggesting an involvement of cannabinoid receptors and the PI3K pathway in the mechanism of MET action. MET treatment of LNCaP cells also induced an up-regulation of androgen receptor expression that was blocked by the two cannabinoid receptor antagonists SR1 and SR2. These results show for the first time that cannabinoids may modify androgen receptor expression in an androgen-dependent cell line and by this mechanism could regulate prostate cell growth.     

Aging in the rat prostate. Reduction in detectable ventral prostate androgen receptor content.

Aging in the rat is associated with a reduction in the detectable androgen receptor content of the ventral prostate. The reduction in cytoplasmic receptor content did not appear to be attributable to an aging-associated production of a receptor-inactivating factor or to an aging-associated change in the sedimentation properties of the androgen receptor of young and aged animals.Saturation analysis of cytoplasmic extracts prepared from two different breeds of similar albino rats and a genetically distinct strain of inbred brown rats demonstrated quantitative aging-associated reductions in the androgen-receptor content per cell of the ventral prostate. The reduction in receptor content per cell appeared to increase progressively in magnitude with increasing age. The mean value for the cytoplasmic androgen receptor sites per cell for the oldest animals (mean age 884 days) was only 14% of the mean value for the young mature animals (mean age 185 days) of the same breed. The binding affinities of the detectable androgen receptor of the young mature and aged animals were essentially identical. This observation does not eliminate the possibility that the observed reduction results from an aging-associated production of defective receptor. Evaluation of the total DNA content of the ventral prostate did not provide evidence for an aging-associated selective loss of receptor-containing cells. These data in toto were consistent with the interpretation that aging is associated with a mean reduction in the androgen-receptor content per receptor-containing cell.Both cytoplasmic and nuclear androgen retention were evaluated in vivo. These experiments provided qualitative confirmation of the in vitro saturation analyses as there was a highly significant aging-associated reduction in the amount of androgen specifically bound by these prostatic compartments. Total specific androgen retention by the ventral prostate of aging adults was reduced by 55% relative to young mature animals. This result was nearly identical to that obtained for the same breed and age category of animals when evaluated by in vitro saturation analysis.Preliminary in vitro experiments revealed a diminution in the uptake of androgen receptor by purified nuclei from aged animals relative to purified nuclei from young mature animals. The magnitude of the diminution in nuclear acceptor capacity was insufficient to account for the reduction in nuclear retention of androgen determined in vivo. The data were consistent with the interpretation that the cytoplasmic receptor is the major determinant of nuclear androgen retention in the ventral prostate.     

Ultrastructure of epithelial cells in rat's epididymal caput in experimental hyperprolactinemia induced by metoclopramide

The aim of the performed studies has been to find out wether or not the ultrastructural alterations of the epithelial cells in the rat's epididymal caput occur in hyperprolactinemia induced by metoclopramide and to see if the observed changes are of reversible character. It has been revealed that prolactin concentration was twice as high as in control animals due to peritoneal administration of metoclopramide in a dose of 2.2 mg/kg body mass, given for 14 days. The ultrastructural alterations in the principal cells of epididymal caput affected cellular organelles being involved in proteins synthesis, glycosylation, secretion as well as energetic processes. They were manifested by decreased amount of rough endoplasmic reticulum, widening of its cisternae combined with degranulation, distension of Golgi apparatus cisternae, elevated number of vesicles in apical part of the cells, and changes in mitochondria. The termination of metoclopramide administration made prolactin concentration exhibit values being almost similar to those determined in control rats, whereas the ultrastructural changes in the principal cells were found to be reversible.