Androgen induces differentiation of a human papillomavirus 16 E6/E7 immortalized prostate epithelial cell line.

Androgen signaling is crucial for the growth and development, as well as for tumorigenesis of the prostate. However, many of the prostate epithelial cell lines developed previously, either normal or tumorigenic, do not express androgen receptor (AR) or respond to androgen. In order to advance our understanding on how androgen signaling regulates the growth and the differentiation status, and affects tumorigenicity of the epithelial cell, we performed experiments on HPr-1, a prostate cell line recently immortalized from normal human prostate epithelial cells. In the present study, AR was stably transfected into HPr-1 cells by replication-defective retrovirus. Treatment of HPr-1AR cells with androgen resulted in cell differentiation and growth retardation accompanied with up-regulation of cytokeratins K8 and K18, prostate specific antigen, p21 and p27, and down-regulation of c-myc, bcl-2 and telomerase activity. Our results suggest that androgen promotes the process of differentiation in a human papillomavirus 16 E6/E7 immortalized prostate epithelial cell line which may reflect the normal effects of androgen on prostate cells.

Retrovirus-mediated delivery of HPV16 E7 antisense RNA inhibited tumorigenicity of CaSki cells.

OBJECTIVE: In cervical cancer, high-risk human papillomavirus (HPV) genes are expressed solely in cancerous cells and have been proposed to be the most important etiological factors for cervical cancer, thus making them suitable targets for gene therapy. In this study, we aim to inactivate the HPV16 E7 in CaSki cells and test the possibility of reducing the tumorigenicity of these cells. METHODS: The full-length HPV16 E7 cDNA was cloned in the pBabe-puro or pWZL-Hygro retrovirus vector in reverse orientation and was stably transfected into CaSki cells by replication-defective retrovirus infection giving rise to CaSki-E7AS and CaSki-E7AS2X cells. Immunoprecipitation/Western analysis and real-time RT-PCR were performed to document the levels of HPV16 E7 gene product. Flow cytometry was performed to study changes in the cell cycle in response to reduced E7 protein. The expression of bcl-2, RB, and E2F-1 was studied using Western blot analysis. Tumorigenicity of CaSki, CaSki-E7AS, and CaSki-E7AS2X cells was assayed with subepidermal tumor growth in nude mice. RESULTS: We have documented that the delivery of the antisense gene construct resulted in the reduction of HPV16 E7 protein expression and cell proliferation in CaSki cells. Furthermore, we demonstrated that these changes were accompanied by cell cycle arrest, up-regulation of RB, and down-regulation of E2F-1 and bcl-2 proteins. More importantly, dose-dependent transduction of the antisense HPV16E7 construct was able to inhibit and/or retard the tumorigenicity of CaSki cells in vivo. CONCLUSIONS: Down-regulation of HPV16 E7 with antisense RNA is beneficial in reducing the tumorigenicity of CaSki cells and can potentially be useful for HPV-associated malignancy gene therapy.

TGF-beta-mediated cell cycle arrest of HPV16-immortalized human ectocervical cells correlates with decreased E6/E7 mRNA and increased p53 and p21(WAF-1) expression.

Transforming growth factor beta (TGF-beta) suppresses proliferation and potentiates apoptosis of HPV16-immortalized human cervical epithelial cells (ECE16-1). Exposure of ECE16-1 to TGF-beta1 increased expression of p53 and induced cell cycle arrest. We examined, by Western blotting, expression of p53 and related cell cycle regulatory proteins after treatment. p53 levels increased as a function of time and dose. Increased p53 appeared to be active, since TGF-beta1 treatment increased the activity of a p53 transcriptional response element in a luciferase reporter plasmid. Additionally, the proteins of the p53-regulated genes, p21(WAF1), mdm2, and Bax, were increased with similar time and dose responses. We did not observe consistent changes in protein levels of cyclin D, cyclin E, CDK4, CDK6, CDK2, p27(Kip1), p16(INK4a), or RNA levels of p15(INK4b). Activity of CDK4 or 6, measured by phosphorylation of an Rb fragment, remained constant during the response period; however, activity of CDK2 (phosphorylation of histone H1) decreased. Concordantly, increased levels of p21(WAF1) were immunoprecipitated with anti-CDK2 antibodies. During treatment, the phosphorylation state of Rb shifted to a hypophosphorylated form. mRNA for the HPV E6/E7 genes decreased; however, significant changes in the E7 protein were not observed, while increased levels of Rb immunoprecipitated with anti-E7 antibodies were observed. These data are consistent with the following model. In ECE16-1 cells, there exists a fine balance between inhibitory levels of p53 and Rb and the antagonists, E6 and E7. TGF-beta1 treatment decreases steady-state levels of E6/E7 mRNA, which results in a shifted balance (lowered activity of E6) in favor of increased p53 expression, resulting in activation of the cell cycle inhibitory gene, p21(WAF1). This protein binds the cyclin E/CDK2 complex that maintains Rb in a phosphorylated state. Rb shifts to a hypophosphorylated state, resulting in G1 arrest, presumably by binding E2F transcription factors.

Immortalization of human prostate epithelial cells by HPV 16 E6/E7 open reading frames.

BACKGROUND: The exact pathogenesis for prostate cancer is not known. Progress made in prostate cancer research has been slow, largely due to the lack of suitable in vitro models. Here, we report our work on the immortalization of a human prostate epithelial cell line and show that it can be used as a model to study prostate tumorigenesis. METHODS: Replication-defective retrovirus harboring the human papillomavirus (HPV) type 16 E6 and E7 open reading frames was used to infect primary human prostate epithelial cells. Polymerase chain reaction, followed by Southern hybridization for the HPV 16 E6/E7, Western blot for prostatic acid phosphatase, telomeric repeat amplification protocol assay for telomerase activity, two-dimensional gels for cytokeratins, and cytogenetic analysis were undertaken to characterized the infected cells. RESULTS: The retrovirus-infected cell line, HPr-1, continued to grow in culture for more than 80 successive passages. Normal primary cells failed to proliferate after passage 6. HPr-1 cells bore close resemblance to normal primary prostate epithelial cells, both morphologically and biochemically. However, they possessed telomerase activity and proliferated indefinitely. Cytogenetic analysis of HPr-1 cells revealed a human male karyotype with clonal abnormalities and the appearance of multiple double minutes. CONCLUSIONS: The HPr-1 cells expressed prostatic acid phosphatase and cytokeratins K8 and K18, proving that they were prostate epithelial cells. They were benign in nude mice tumor formation and soft agar colony formation assay. The HPr-1 cell line is an in vitro representation of early prostate neoplastic progression.

Oligospermic infertility associated with an androgen receptor mutation that disrupts interdomain and coactivator (TIF2) interactions.

Structural changes in the androgen receptor (AR) are one of the causes of defective spermatogenesis. We screened the AR gene of 173 infertile men with impaired spermatogenesis and identified 3 of them, unrelated, who each had a single adenine-->guanine transition that changed codon 886 in exon 8 from methionine to valine. This mutation was significantly associated with the severely oligospermic phenotype and was not detected in 400 control AR alleles. Despite the location of this substitution in the ligand-binding domain (LBD) of the AR, neither the genital skin fibroblasts of the subjects nor transfected cell types expressing the mutant receptor had any androgen-binding abnormality. However, the mutant receptor had a consistently (approximately 50%) reduced capacity to transactivate each of 2 different androgen-inducible reporter genes in 3 different cell lines. Deficient transactivation correlated with reduced binding of mutant AR complexes to androgen response elements. Coexpression of AR domain fragments in mammalian and yeast two-hybrid studies suggests that the mutation disrupts interactions of the LBD with another LBD, with the NH2-terminal transactivation domain, and with the transcriptional intermediary factor TIF2. These data suggest that a functional element centered around M886 has a role, not for ligand binding, but for interdomain and coactivator interactions culminating in the formation of a normal transcription complex.

Mantle cell lymphoma in the Chinese: clinicopathological features and treatment outcome.

We report the clinical, molecular, and immunohistological findings of 20 Chinese patients with mantle cell lymphoma diagnosed over a 10-year period. The disease affected mainly elderly patients (median age, 65.5 years) with a male predominance (M/F, 3/1). Eighty percent presented with advanced stage III/IV disease but only 25% had B symptoms. Eighty-five percent had extranodal disease at presentation. Complete remission (CR) and partial remission (PR) were achieved in 45% and 40% of the patients, respectively. There was no difference in the CR rate for patients treated with anthracycline-containing or nonanthracycline-containing regimens (43% and 50%, P = 0.67). Disease progression or relapse was observed after a median of 26 months in patients who initially responded to treatment. Extranodal relapse occurred in the central nervous system (n = 1), bone marrow (n = 1), pleura (n = 2), orbit (n = 2), and the gastrointestinal tract (n = 3). The median overall survival (OS) was 52 months but there were no long-term survivors. This was not different from the median OS of 53 months of patients with diffuse large cell (DLC) lymphoma treated in the same center over the same period (log rank, P = 0.76). Of the 12 patients who were tested for bcl-1 rearrangement by polymerase chain reaction (PCR), five (42%) were positive for rearrangement in the major translocation cluster (MTC) region. The median OS rates were 45 months and 63 months for PCR positive and negative patients, respectively (P = 0.97). In conclusion, MCL is a disease mainly of the elderly in the Chinese with a male predominance and most had advanced-stage disease and extranodal involvement at presentation. Clinicopathologic features and treatment outcome were similar to Caucasian patients, in that the disease combined the aggressive nature of DLC lymphoma and the incurability of low-grade lymphoma.

Transcriptional regulation of the EGF receptor promoter by HPV16 and retinoic acid in human ectocervical epithelial cells.

We have previously demonstrated that human papillomavirus 16 (HPV16)-immortalized human ectocervical epithelial cells and cells derived from tumors which express HPV16 oncogenes express high levels of epidermal growth factor receptor (EGFR) compared to normal cervical cells. We have also shown that proliferation of these cells is inhibited by retinoid treatment. We have hypothesized that the retinoid inhibition of cell proliferation may be due to the retinoid-dependent reduction in EGFR level. In this study we examine the regulation of EGFR expression in cervical cells with emphasis on two aspects: (1) the mechanism of retinoid-dependent suppression of EGFR levels in HPV16-positive cells and (2) the mechanism of EGFR upregulation by HPV16. EGFR levels were found to be elevated 5-, 3. 7-, and 1.25-fold in the HPV16-immortalized ECE16-1, ECE16-D1, and ECE16-D2 cells, respectively, compared to normal cervical cells. Treatment of ECE16-1 and ECE16-D1 cells with retinoic acid suppresses proliferation, EGFR level, EGFR mRNA level, and EGFR promoter activity. The reduction in EGFR promoter activity appears to account for the reduction in EGFR protein and mRNA levels. In contrast, retinoic acid does not affect cell growth or EGFR level in ECE16-D2 cells or normal cervical cells. To study the mechanisms regulating EGFR expression in HPV16-positive cells, normal ECE cells were cotransfected with an EGFR promoter reporter plasmid and an expression plasmid encoding the HPV16 E6/E7 open reading frames. In the presence of E6/E7, EGFR promoter activity was increased by 2- to 3-fold, suggesting that the E6/E7 proteins are directly or indirectly responsible for the increased EGFR level and that the EGFR promoter contains the DNA elements necessary to mediate this response. Nevertheless expression of E6/E7 proteins did not confer retinoic acid regulation, as EGFR promoter activity remained elevated in normal cells cotransfected with pHPVE6/E7 and treated with retinoic acid. These results suggest that human papillomavirus and retinoic acid regulate EGFR levels by independent effects on the EGFR promoter.

Retinoid regulation of cell differentiation in a series of human papillomavirus type 16-immortalized human cervical epithelial cell lines.

Retinoids are important regulators of cervical epithelial cell differentiation and have been used in the treatment of cervical cancer. In the present study we evaluate the effects of retinoic acid on expression of biochemical markers of differentiation and expression of human papillomavirus reading frames encoding the early gene products E6 and E7 in normal and HPV16-immortalized cervical epithelial cell lines. Our results indicate that the differentiation markers cytokeratins K5 and K16 and transglutaminase type 1 are suppressed by all-trans-retinoic acid (RA). A marked concentration-dependent reduction in the level of of each mRNA is observed with maximal suppression at 1 microM. Each of the HPV16-immortalized cell lines (ECE16-1, ECE16-D1 and ECE16-D2) are more sensitive to the effects of RA than normal cells. The level of HPV16 transcript encoding E6/E7 is not significantly suppressed by 1 microM RA in ECE16-1 cells, but is suppressed in ECE16-D1 and ECE16-D2 cells. In addition, an increase in HPV transcripts encoding E6/E7 is observed at intermediate (10 and 100 nM) retinoic acid concentrations in ECE16-1 and ECE16-D2 cells, but not in ECE16-D1 cells. Our results show that retinoids regulate E6/E7 transcript levels in some cervical cell lines but not in others, suggesting that different cervical tumors may respond to retinoids via different mechanisms.

Human cervical cancer. Retinoids, interferon and human papillomavirus.

Our studies highlight the importance of dietary vitamin A (retinol) and other retinoids in maintaining normal cervical cell function and in inhibiting the growth of cervical tumors. Based on our results we conclude that 1) HPV 16-immortalization enhances cervical cell sensitivity to retinoids, 2) cytokeratin expression may be useful as a marker for evaluating the success of retinoid therapy in vivo, 3) retinoids do not necessarily act to inhibit proliferation of HPV-immortalized cervical cells via effects on HPV E6 and E7 RNA levels and 4) retinoids may act to inhibit cervical proliferation by "suppressing" the activity of the EGF and IGF signalling pathways. Based on these and other results, it is worth considering the possibility that vitamin A or related retinoids could be administered therapeutically, early in the neoplastic process (either systemically or locally), to inhibit the progress of the disease. These results also suggest that combined interferon/retinoid therapy may provide an enhanced beneficial effect to reduce cervical tumor size due to the fact that each agent is inhibiting cervical cell proliferation via distinct, but reinforcing, pathways (i.e., IFN gamma reduces E6/E7 expression, RA inhibits the function of the EGF and IGF1 signalling pathways).

Differentiation-independent constitutive expression of the human papillomavirus type 16 E6 and E7 oncogenes in the CaSki cervical tumour cell line.

CaSki cells are a human papillomavirus type 16 (HPV-16)-positive cell line that serves as a model for the study of advanced cervical carcinoma. Calcium is an important regulator of normal ectocervical epithelial cell differentiation. HPV E6 and E7 gene products are thought to be important in the process of cervical cell immortalization and hence important in the development of cervical cancer. In the present study we examine the relationship between CaSki cell differentiation and expression of the papillomavirus oncogenes. Shifting CaSki cells from medium containing low (0.06 mM) to high (1.4 mM) calcium results in an increase in cell-cell contact and increased differentiation as measured by an increase in the level of mRNA encoding cytokeratin K13, involucrin and type 1 transglutaminase, which are markers of differentiation in the cervical epithelium. In contrast, E6/E7 transcripts are produced in a differentiation-independent constitutive manner. These results and those from our previous experiments with HPV-16-immortalized but non-tumorigenic cell lines suggest that the constitutive, differentiation-independent expression of E6/E7 levels is a property of both tumorigenic and non-tumorigenic HPV-16-positive cancer cells.

Calcium regulates the differentiation of human papillomavirus type 16 (HPV16) immortalized ectocervical epithelial cells, but not the expression of the papillomavirus E6 and E7 oncogenes.

Calcium is an important regulator of normal human cervical cell differentiation; however, it is not known whether the calcium responsiveness of the cells would be altered by immortalization with human papillomavirus. In the present study we examine the effects of extracellular calcium on morphology, expression of biochemical markers of cervical cell differentiation, and HPV16 oncogene transcription in an HPV16-immortalized human cervical cell line, ECE16-1. ECE16-1 cells respond to increased calcium with increased levels of mRNA encoding cytokeratin K13, transglutaminase, and involucrin. Dose-response studies indicate that these markers are coordinately regulated and that maximal levels are present at calcium concentrations of > or = 0.4 mM. RNA levels begin to increase within 24 h after cells are shifted to medium containing high calcium and are maximal by 3 days. Protein levels change directly with the change in mRNA, suggesting that mRNA level determines protein concentration; however, transcription runoff experiments indicate that the increased mRNA does not result from new synthesis. Parallel studies indicate that expression of the HPV16 oncogenes, E6 and E7, are not regulated by extracellular calcium. These results are consistent with in vivo experiments showing that in advanced cervical intraepithelial neoplasia, where HPV16 DNA is integrated in host cell DNA, E6/E7 transcript production is not regulated in a differentiation-dependent manner.