Iris E. Eder

Switch from antagonist to agonist of the androgen receptor blocker bicalutamide is associated with prostate tumour progression in a new model system

SummaryAdvanced prostate cancer is treated by androgen ablation and/or androgen receptor (AR) antagonists. In order to investigate the mechanisms relevant to the development of therapy-resistant tumours, we established a new tumour model which closely resembles the situation in patients who receive androgen ablation therapy. Androgen-sensitive LNCaP cells were kept in androgen-depleted medium for 87 passages. The new LNCaP cell subline established in this manner, LNCaP-abl, displayed a hypersensitive biphasic proliferative response to androgen until passage 75. Maximal proliferation of LNCaP-abl cells was achieved at 0.001 nM of the synthetic androgen methyltrienolone (R1881), whereas 0.01 nM of this compound induced the same effect in parental cells. At later passages (> 75), androgen exerted an inhibitory effect on growth of LNCaP-abl cells. The non-steroidal anti-androgen bicalutamide stimulated proliferation of LNCaP-abl cells. AR protein expression in LNCaP-abl cells increased approximately fourfold. The basal AR transcriptional activity was 30-fold higher in LNCaP-abl than in LNCaP cells. R1881 stimulated reporter gene activity in LNCaP-abl cells even at 0.01 nM, whereas 0.1 nM of R1881 was needed for induction of the same level of reporter gene activity in LNCaP cells. Bicalutamide that acts as a pure antagonist in parental LNCaP cells showed agonistic effects on AR transactivation activity in LNCaP-abl cells and was not able to block the effects of androgen in these cells. The non-steroidal AR blocker hydroxyflutamide exerted stimulatory effects on AR activity in both LNCaP and LNCaP-abl cells; however, the induction of reporter gene activity by hydroxyflutamide was 2.4- to 4-fold higher in the LNCaP-abl subline. The changes in AR activity were associated neither with a new alteration in AR cDNA sequence nor with amplification of the AR gene. Growth of LNCaP-abl xenografts in nude mice was stimulated by bicalutamide and repressed by testosterone. In conclusion, our results show for the first time that the non-steroidal anti-androgen bicalutamide acquires agonistic properties during long-term androgen ablation. These findings may have repercussions on the natural course of prostate cancer with androgen deprivation and on strategies of therapeutic intervention.

Inhibition of LncaP prostate cancer cells by means of androgen receptor antisense oligonucleotides.

Currently available methods for treatment of human prostatic carcinoma aim to inactivate the androgen receptor (AR) by androgen deprivation or blockade with anti-androgens. Failure of endocrine therapy and tumor progression is characterized by androgen-independent growth despite high levels of AR expression in metastatic disease. We inhibited AR expression in LNCaP prostate tumor cells by using antisense AR oligodeoxynucleotides (ODNs) and explored whether antisense AR treatment would be conceivable as a therapy for advanced prostate cancer. Among the various AR antisense ODNs tested, a 15-base ODN targeting the CAG repeats encoding the poly-glutamine region of the AR (as750/15) was found to be most effective. Treatment of LNCaP cells with as750/15 reduced AR expression to ∼2% within 24 hours compared with mock-treated controls. AR down-regulation resulted in significant cell growth inhibition, strongly reduced secretion of the androgen-regulated prostate-specific antigen, reduction of epidermal growth factor receptor expression, and an increase in apoptotic cells. Mis-sense and mismatched control ODNs had no or only slight effects. Antisense inhibition was also very efficient in LNCaP-abl cells, a subline established after long-term androgen ablation of LNCaP cells, resulting in inhibition of AR expression and cell proliferation that was similar to that seen for parental LNCaP cells. This study shows that inhibition of AR expression by antisense AR ODNs may be a promising new approach for treatment of advanced human prostate cancer.

AGE DEPENDENT APOPTOSIS AND LOSS OF RHABDOSPHINCTER CELLS

PURPOSE To our knowledge the exact age dependent morphological and functional changes of the sphincter mechanism have not been investigated. Therefore, cell densities of the urethra and the urethral rhabdosphincter across various age groups, and the appearance of apoptosis were examined to explore the changes in these structures during the aging process. MATERIALS AND METHODS Specimens were obtained from 16 male and 7 female cadavers 5 weeks to 92 years old. Histological sections were taken from 3 different levels of the rhabdosphincter and urethra. The terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick end-labeling method was used to detect apoptosis in the urethra and rhabdosphincter. In all specimens relative volume densities of the striated muscle fibers, apoptotic indexes and diameters of the rhabdosphincter and urethra were determined. RESULTS An age dependent increase of apoptosis of the striated muscle fibers of the rhabdosphincter led to a dramatic decrease in the number of striated muscle cells. In the 5-week-old neonate 87.6% and in the 91-year-old woman 34.2% of the rhabdosphincter consisted of striated muscle cells. Overall, a direct linear correlation between the age of the specimens and decrease in volume densities of the striated muscle cells was evident. CONCLUSIONS The dramatic decrease in the number of striated muscle cells in the rhabdosphincter of the elderly due to apoptosis represents the morphological basis for the high incidence of stress incontinence in this population.

Androgen receptor down regulation by small interference RNA induces cell growth inhibition in androgen sensitive as well as in androgen independent prostate cancer cells.

We investigated the effects of androgen receptor (AR) down regulation with a small interference RNA molecule (siRNA_AR(start)) on androgen sensitive LNCaP and androgen independent LNCaPabl prostate cancer cells, the latter representing an in vitro model for the development of therapy resistance in prostate cancer. Although LNCaPabl cells express increased levels of AR in comparison with androgen sensitive LNCaP cells, the protein was significantly down regulated in response to siRNA_AR(start) treatment. This AR down regulation resulted in a marked cell growth inhibition in both cell lines. By contrast, DU-145 prostate cancer cells, which lack AR expression, were not inhibited by the siRNA_AR(start). In consequence to AR down regulation, both cell lines, LNCaP and LNCaPabl, shared a highly similar gene expression profile in terms of major changes in cell cycle regulatory genes. The cell cycle inhibitor p21(Waf1/Cip1) as well as cyclin D1 were significantly up regulated by siRNA_AR(start) treatment, considering a switch in cyclin expression towards cell cycle retardation. Control molecules had moderate effects on cell proliferation and gene expression, respectively. In summary, we found that AR inhibition with siRNA induces cell growth retardation in androgen sensitive as well as in androgen independent prostate cancer cells and thus may represent an interesting approach to combat hormone-refractory prostate cancer.

Inhibition of LNCaP prostate tumor growth in vivo by an antisense oligonucleotide directed against the human androgen receptor

We have shown recently that a 15-mer phosphorothioate oligodeoxynucleotide (ODNas750/15) that hybridizes to the (CAG)n polyglutamine region of mRNA encoding human androgen receptor (AR) inhibits the expression of AR in LNCaP prostate cancer cells in vitro. This AR downregulation was accompanied by significant cell growth inhibition and reduced PSA secretion. In the present study we investigated the effects of this antisense AR ODN on prostate tumor growth in vivo using a mouse xenograft model. Via subcutaneously implanted diffusion pumps, either ODNas750/15 or a scrambled control sequence ODNsr750/15 was continuously administered into LNCaP tumor–bearing male nude mice for 7 weeks. Compared with untreated control animals, treatment with ODNas750/15 resulted in significant tumor growth inhibition. Retardation of tumor growth was also significant in castrated mice, whereas the scrambled control ODN did not exert any effects. No side effects such as loss of body weight were observed at any time of treatment. ODN treatment was well tolerated and, in contrast to castration, did not induce shrinkage of mouse prostates. Both AR expression in the tumor and PSA levels in mouse serum correlated with tumor size. However, we failed to demonstrate a correlation between tumor retardation and Ki-67 antigen expression and the number of apoptotic cells, respectively. Testing of antisense-treated LNCaP cells revealed that expression levels of other proteins that contain shorter polyglutamine sequence stretches such as HDAC2, TFIID, and c-jun were not affected. The present study demonstrates that downregulation of AR with antisense ODNas750/15 causes prostate tumor growth inhibition. These results further point out the important role of the AR in prostate tumors and support further testing of AR downregulation for treatment of prostate cancer.

Basic fibroblast growth factor levels in cancer cells and in sera of patients suffering from proliferative disorders of the prostate.

Both benign and malignant growth of the prostate depend on the induction of a microvasculature. Basic fibroblast growth factor (bFGF), a potent angiogenic factor, is thought to play an important role in this process.

Microbubble-enhanced ultrasound to deliver an antisense oligodeoxynucleotide targeting the human androgen receptor into prostate tumours

We have shown recently that downregulation of the androgen receptor (AR), one of the key players in prostate tumor cells, with short antisense oligodeoxynucleotides (ODNs) results in inhibition of prostate tumor growth. Particularly with regard to an application of these antisense drugs in vivo, we now investigated the usefulness of microbubble-enhanced ultrasound to deliver these ODNs into prostate cancer cells. Our short antisense AR ODNs were loaded onto the lipid surface of cationic gas-filled microbubbles by ion charge binding, and delivered into the cells by bursting the loaded microbubbles with ultrasound. In vitro experiments were initially performed to show that this kind of delivery system works in principle. In fact, transfection of prostate tumor cells with antisense AR ODNs using microbubble-enhanced ultrasound resulted in 49% transfected cells, associated with a decrease in AR expression compared to untreated controls. In vivo, uptake of a digoxigenin-labelled ODN was found in prostate tumour xenografts in nude mice following intratumoral or intravenous injection of loaded microbubbles and subsequent exposure of the tumour to ultrasound, respectively. Our results show that ultrasound seems to be the driving force of this delivery system. Uptake of the ODN was also observed in tumors after treatment with ultrasound alone, with only minor differences compared to the combined use of microbubbles and ultrasound.

Transforming Growth Factors-beta 1 and beta 2 in Serum and Urine from Patients with Bladder Carcinoma

PURPOSE Transforming growth factors-beta (TGF-beta) are cellular regulators and potent angiogenic factors. We determined serum and urinary levels of TGF-beta 1 and beta 2 in patients with bladder carcinoma to study a correlation with tumor stage, grade and metastatic spread. MATERIALS AND METHODS Using commercial immunoassays TGF-beta 1 and beta 2 were determined in serum and urine samples from 57 bladder cancer patients and 18 healthy controls. RESULTS Serum TGF-beta 1 levels were significantly elevated in 21 patients with invasive bladder cancer (61.5 ng./ml.) compared to 18 healthy controls (36.3 ng./ml.), whereas serum TGF-beta 1 levels in 36 patients with superficial bladder tumors were within the normal range (33.4 ng./ml.). Serum TGF-beta 1 was increased in 27 patients with grade 3 tumors (55.7 ng./ml.), compared to 16 with grade 1 and 14 with grade 2 tumors (32.6 and 33.3 ng./ml., respectively). By contrast, serum TGF-beta 2 levels were not different from those of controls. No significant increase in serum TGF-beta 1 and beta 2 could be found in patients with lymph node metastases. In urine specimens there was no significant correlation of TGF-beta 1 and beta 2 with tumor stage. CONCLUSIONS Our results suggest that elevated serum TGF-beta 1 may be relevant for diagnosis of bladder cancer and further studies are warranted.

Molecular Biology of the Androgen Receptor: From Molecular Understanding to the Clinic

The androgen receptor (AR) is the key regulatory element of androgen signaling in the cell. It mediates action of androgens and is therefore essential for growth, function and differentiation of the human male urogenital tract. Genetic alterations in the AR gene may cause impaired development resulting in androgen insensitivity syndromes (AIS) or in neurodegenerative diseases like Kennedy syndrome. Besides the crucial role in the process of virilization during embryogenesis and puberty, the AR also plays an important role in the adult man as the intracellular mediator of androgen action. Androgen withdrawal and/or AR blockade is the main choice of treatment of nonorgan–confined prostate cancer. Unfortunately, this treatment is only palliative and a majority of these tumors recur and progress to an androgen–independent and therapy–resistant stage. Recent findings gave new insight into the molecular structure and function of the AR and improved our understanding about prostate cancer progression, consequently resulting in the development of novel treatments. It has become evident that the AR is a nuclear transcription factor that can be activated ligand–dependently by androgens as well as ligand–independently by other hormones and various growth factors, respectively. Moreover, it was shown that the interaction of the AR with other proteins of the intracellular signal transduction cascade may promote prostate tumor growth. This review will summarize the most important findings about the AR and the androgen signaling pathway to improve the understanding of prostate diseases and novel treatment strategies that may be useful in the clinic.

Expression of androgen receptor coregulatory proteins in prostate cancer and stromal-cell culture models.

Androgen receptor (AR) transcriptional activity is modulated by cofactor proteins. They act as costimulators, corepressors, or bridging proteins, and a disbalanced expression may contribute to the altered activity of the AR in advanced prostate cancer. We investigated the expression of a series of steroid receptor cofactors in prostate cancer cell lines, including several LNCaP sublines, and in prostate stromal cells.