Alendronate Inhibits VEGF Expression in Growth Plate Chondrocytes by Acting on the Mevalonate Pathway

Bisphosphonates decrease chondrocyte turnover at the growth plate and impact bone growth. Likewise vascular endothelial growth factor (VEGF) plays an important role in endochondral bone elongation by influencing chondrocyte turnover at the growth plate. To investigate whether the action of bisphosphonate on the growth plate works through VEGF, VEGF protein expression and isoform transcription in endochondral chondrocytes isolated from growing mice and treated with a clinically used bisphosphonate, alendronate, were assessed. Alendronate at 10µM and 100µM concentrations decreased secreted VEGF protein expression but not cell associated protein. Bisphosphonates are known to inhibit the mevalonate intracellular signaling pathway used by VEGF. Addition of the mevalonate pathway intermediates farnesol (FOH) and geranylgeraniol (GGOH) interacted with the low concentration of alendronate to further decrease secreted VEGF protein whereas FOH partially restored VEGF protein secretion when combined with the high alendronate. Similar to the protein data, the addition of alendronate decreased VEGF mRNA isoforms. VEGF mRNA levels were rescued by the GGOH mevalonate pathway intermediate at the low alendronate dose whereas neither intermediate consistently restored the VEGF mRNA levels at the high alendronate dose. Thus, the bisphophonate alendronate impairs growth plate chondrocyte turnover by down-regulating the secreted forms of VEGF mRNA and protein by inhibiting the mevalonate pathway

Heparanase expression is a prognostic indicator for postoperative survival in pancreatic adenocarcinoma

Pancreatic ductal adenocarcinoma has a median survival of less than 6 months from diagnosis. This is due to the difficulty in early diagnosis, the aggressive biological behaviour of the tumour and a lack of effective therapies for advanced disease. Mammalian heparanase is a heparan-sulphate proteoglycan cleaving enzyme. It helps to degrade the extracellular matrix and basement membranes and is involved in angiogenesis. Degradation of extracellular matrix and basement membranes as well as angiogenesis are key conditions for tumour cell spreading. Therefore, we have analysed the expression of heparanase in human pancreatic cancer tissue and cell lines. Heparanase is expressed in cell lines derived from primary tumours as well as from metastatic sites. By immunohistochemical analysis, it is preferentially expressed at the invading edge of a tumour at both metastatic and primary tumour sites. There is a trend towards heparanase expression in metastasising tumours as compared to locally growing tumours. Postoperative survival correlates inversely with heparanase expression of the tumour reflected by a median survival of 34 and 17 month for heparanase negative and positive tumours, respectively. Our results suggest, that heparanase promotes cancer cell invasion in pancreatic carcinoma and could be used as a prognostic indicator for postoperative survival of patients

Activation of nuclear factor-κB in human prostate carcinogenesis and association to biochemical relapse

Nuclear factor (NF)-κB/p65 regulates the transcription of a wide variety of genes involved in cell survival, invasion and metastasis. We characterised by immunohistochemistry the expression of NF-κB/p65 protein in six histologically normal prostate, 13 high-grade prostatic intraepithelial neoplasia (PIN) and 86 prostate adenocarcinoma specimens. Nuclear localisation of p65 was used as a measure of NF-κB active state. Nuclear localisation of NF-κB was only seen in scattered basal cells in normal prostate glands. Prostatic intraepithelial neoplasias exhibited diffuse and strong cytoplasmic staining but no nuclear staining. In prostate adenocarcinomas, cytoplasmic NF-κB was detected in 57 (66.3%) specimens, and nuclear NF-κB (activated) in 47 (54.7%). Nuclear and cytoplasmic NF-κB staining was not correlated (P=0.19). By univariate analysis, nuclear localisation of NF-κB was associated with biochemical relapse (P=0.0009; log-rank test) while cytoplasmic expression did not. On multivariate analysis, serum preoperative prostate specific antigen (P=0.02), Gleason score (P=0.03) and nuclear NF-κB (P=0.002) were independent predictors of biochemical relapse. These results provide novel evidence for NF-κB/p65 nuclear translocation in the transition from PIN to prostate cancer. Our findings also indicate that nuclear localisation of NF-κB is an independent prognostic factor of biochemical relapse in prostate cancer

Taurine attenuates CD3/interleukin-2-induced T cell apoptosis in an in vitro model of activation-induced cell death (AICD)

Interleukin (IL)-2 immunotherapy is used for the treatment of metastatic melanoma and renal cell carcinoma and mediates its effects through the clonal expansion of lymphocytes. Although IL-2 remains the most effective form of therapy for these cancers, response rates are poor and dose escalation is hampered by side effects, which include vascular leak and lymphopenia. The mechanism underlying T cell loss is currently unidentified but could be the induction of activation-induced cell death (AICD) mediated by FasL. Our previous studies have shown that the amino acid taurine can attenuate apoptosis induced by a number of factors in different cell types. Here, we induced T cell AICD via CD3 and IL-2 stimulation and investigated the effect of taurine on lymphocyte apoptosis. Anti-CD3-activated Jurkat T cells treated with IL-2 significantly increased FasL expression, which was associated with increased apoptosis. Treatment with taurine prior to stimulation down-regulated FasL protein expression and partially inhibited apoptosis. Inhibition of FasL-signalling resulted in an identical reduction in apoptosis. As the kinetics of AICD are completely different in circulating T cells, we repeated these experiments in such cells to confirm our finding. Stimulation of CD4(+) circulating T cells induced apoptosis in sensitized, but not freshly isolated T cells, which was abrogated partially by taurine. In Jurkat cells it was determined that taurine-mediated down-regulation of FasL protein expression was associated with decreased FasL mRNA expression and reduced NFκB activation. These results reveal one possible mechanism underlying the lymphopenia observed with IL-2 immunotherapy, involving increased FasL expression leading to apoptosis. Taurine may be of use in reversing the lymphopenia associated with IL-2, thereby augmenting its immunotherapeutic potential

A novel orthotopic murine model provides insights into cellular and molecular characteristics contributing to human osteosarcoma

As a reliable model for osteosarcoma is lacking, three human cell lines (SaOS-2, U2OS and 143B) were evaluated in cell-based assays for proliferation, adhesion, migration, invasion, anchorage-independent growth, angiogenesis, mineralised nodule formation, plasmid transfection and oligonucleotide transfection. Tumor take and metastasis after orthotopic injection of the three cell lines into mice was monitored. The levels of expression of typical bone markers were determined with semi-quantitative RT-PCR in cultured cells, primary tumors, and for the SaOS-2 cell line, the metastases. Tumors grew and spread to the lungs within 3 and 5 weeks respectively, mimicking the clinical progression of the disease as analysed by x-ray. Expression of molecular markers in SaOS-2 indicated a mostly differentiated cell type at the primary and secondary sites. The ability of osteosarcoma cells to interact with collagen-1 and to form mineralised deposits correlated positively with tumor aggression in vivo. Expression of alkaline phosphatase was a common theme in both tumor models at the primary site. The newly established SaOS-2 model should allow the testing of candidate anti-osteosarcoma agents as well as dissection of more intricate mechanisms involved in human osteosarcoma