Publications (7)23.1 Total impact
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Article: Deficient activation of Bak and Bax confers resistance to gemtuzumab ozogamicin-induced apoptotic cell death in AML.
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ABSTRACT: Gemtuzumab ozogamicin (GO), comprising a CD33 antibody linked to the toxin calicheamicin, represents a novel and promising targeted therapy in acute myeloid leukemia (AML). The more definite mechanisms by which GO exerts its cell death-inducing propensity, and thus how sensitivity and resistance to GO are regulated, still remain to be elucidated. We have studied proapoptotic signaling events induced by GO and free calicheamicin in AML cells. AML cell lines and primary blood cells from six patients with acute leukemia were incubated with GO or calicheamicin and the effects on cell viability and proapoptotic signaling were analyzed using MTT assay, flow cytometry, immunofluorescence and immunoblotting. GO and free calicheamicin at clinically relevant concentrations resulted in decreased cell viability, appearance of apoptotic morphology, depolarization of mitochondria, and activation of caspase-3 signaling in HL60 and NB4 AML cells. In contrast, none of these events were observed in GO-exposed KG1a AML cells. Notably, GO treatment also caused proapoptotic conformation of Bak and Bax and activation of stress-activated protein kinase p38 in responsive but not in resistant AML cells. In patient-derived AML cells, GO and calicheamicin induced a heterogeneous cytotoxic response, partly linked to CD33 expression and with signs of caspase-3 activation. Our novel data on GO-induced proapoptotic activation of Bax, Bak, and stress-activated protein kinase indicate an important role for these signal proteins in the regulation of GO sensitivity in AML.Experimental hematology 07/2009; 37(6):755-66. · 3.11 Impact Factor -
Article: Insulin-like growth factor binding protein-3 (IGFBP-3) in the prostate and in prostate cancer: local production, distribution and secretion pattern indicate a role in stromal-epithelial interaction.
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ABSTRACT: Insulin-like growth factor binding protein 3 (IGFBP-3) exerts inhibitory and proapoptotic effects on prostate cancer cells. Serum levels of IGFBP-3 were found to be associated with the risk of prostate cancer, but the data are still inconclusive. We present a detailed analysis of the expression and localization of IGFBP-3 in the prostate and a comparison with its expression pattern in tumors. Expression and localization of IGFBP-3 were analyzed in cellular models and tissue by real-time RT-PCR, ELISA, immunohistochemistry, and immunofluorescence. All cell types of a panel of benign epithelial, stromal and tumor prostate cells expressed IGFBP-3. Significantly higher expression levels were registered in stromal cells. TGF-beta stimulation boosted IGFBP-3 levels 60-fold in stromal cells. The pattern of expression was confirmed in microdissected tissue samples. Protein levels measured by ELISA paralleled the mRNA levels and more than 80% of IGFBP-3 was secreted. On tissue immunostaining, IGFBP-3 was found to be mainly located in the epithelium. The pattern suggested secretion of IGFBP-3, which was confirmed in prostate tissue cultured ex vivo and the ejaculate of vasectomized men. IGFBP-3 levels were increased in primary tumors but did not differ from benign epithelium in metastases and local recurrent tumors. We registered a significant local production of IGFBP-3 in the prostate, which may well override the effect of protein entering from blood. The stroma--particularly reactivated stroma--is the main source of IGFBP-3 in the prostate, suggesting that this peptide acts as a mediator of stromal-epithelial interactions.The Prostate 09/2008; 68(11):1165-78. · 3.48 Impact Factor -
Article: Microbubble-enhanced ultrasound to deliver an antisense oligodeoxynucleotide targeting the human androgen receptor into prostate tumours.
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ABSTRACT: 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.The Journal of Steroid Biochemistry and Molecular Biology 01/2007; 102(1-5):103-13. · 3.05 Impact Factor -
Article: The expression of transcription factor activating transcription factor 3 in the human prostate and its regulation by androgen in prostate cancer.
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ABSTRACT: ATF3 is a member of the basic leucine zipper/cyclic adenosine monophosphate responsive element binding protein family of transcription factors. There is overwhelming evidence that it is a stress inducible factor acting in a signal-type and cell-type dependent manner, and it is involved in cell proliferation and survival. We found that ATF3 was differently expressed in an in vitro prostate cancer tumor progression model and we investigated the possible role of ATF3 in prostate cancer. ATF3 up-regulation in vivo/in vitro and androgen regulation were assessed by immunohistochemistry and immunoblot analysis. Results after forced ATF3 transfection were evaluated by proliferation assay and cell cycle analysis. Immunohistochemistry and immunoblot analysis revealed ATF3 up-regulation in prostate cancer in vitro and in vivo, and stimulation of expression by androgens. Antiandrogen treatment decreased ATF3 expression in androgen sensitive cells but acted as a stimulator in long-term androgen ablated cells representing a model for therapy refractory disease. Expression in tumors increased with higher Gleason scores and highest expression was observed in samples of therapy refractory tumor tissue. Forced ATF3 over expression in a prostate cancer cell line induced cell proliferation and accelerated cell cycle progression from G1 to S-phase. These data provide new insight into the role of ATF3 in prostate cancer development and/or progression. They indicate that ATF3 is an androgen regulated gene that is highly expressed in prostate tumors and stimulating cell proliferation. It represents a possible target for prostate cancer therapy.The Journal of Urology 05/2006; 175(4):1517-22. · 3.75 Impact Factor -
Article: Targeting the androgen receptor in hormone-refractory prostate cancer--new concepts.
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ABSTRACT: The androgen receptor (AR) plays a key regulatory role in hormone-naive, as well as in advanced, therapy-resistant prostate cancer. Therefore, the development of novel treatment strategies using new means for targeting AR function in prostate tumors aims at providing better options for control of progression and progressive disease. This review summarizes recent attempts in this field with a critical view on their clinical usefulness. In addition to classic endocrine therapy by surgical and/or chemical castration, there are concepts to inhibit the AR directly through anti-androgens, selective AR modulators, naturally occurring AR inhibitors, neutralizing antibodies and dominant-negative peptides. A unique possibility to prevent AR expression at the transcriptional level represents the use of antisense technology. The advantage of this method is that AR expression, and thus any aberrant route of its activation is prevented. Furthermore, there are several approaches by which AR signaling is inactivated indirectly. Degradation of heat-shock proteins, which direct appropriate AR protein folding, or modulation of various growth factor signaling cascades, which are thought to contribute to AR activation in the androgen-deprived patient, have been investigated.Future Oncology 03/2005; 1(1):93-101. · 3.16 Impact Factor -
Article: Gene therapy strategies in prostate cancer.
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ABSTRACT: Androgen ablation is the choice of treatment for patients with advanced prostate cancer. Although untreated tumors are mostly androgen-dependent, hormone withdrawal is only palliative. The major problem in prostate cancer treatment represents the progression to androgen-independent growth during therapy, rendering current strategies inefficient. Thus, there is an urgent need to develop novel treatments to combat therapy-resistant prostate cancer. Intensive research strongly improved the knowledge about the molecular changes, which are believed to occur during prostate carcinogenesis and progression to androgen-independence. This in turn led to the identification of several interesting genes, which may be useful as targets for prostate cancer gene therapy. In fact, there is a broad range of different gene therapy approaches in the field of prostate cancer, some of which have already progressed to clinical evaluation in patients. Promising data and best benefit for patients currently provide studies where gene therapy strategies are combined with conventional treatments like chemotherapy or radiation. In this review we will give an overview of several interesting gene therapy concepts and delivery systems in prostate cancer and discuss their usefulness in the clinic.Current Gene Therapy 03/2005; 5(1):1-10. · 3.39 Impact Factor -
Article: Gene expression changes following androgen receptor elimination in LNCaP prostate cancer cells.
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ABSTRACT: We have shown recently that inhibition of androgen receptor (AR) expression with an antisense AR oligonucleotide (ODN) inhibits LNCaP prostate tumor cells in vitro as well as in vivo. In this study, we investigated gene expression changes that occur after AR signaling blockade, either through AR elimination by antisense treatment or through complete androgen receptor inhibition by androgen deprivation combined with the antiandrogen bicalutamide, in order to search for genes that are directly or indirectly regulated through the AR. Gene expression changes were investigated with cDNA NIH 10K gene microarrays in response to treatment over 48 h. Expression of selected genes was further analyzed by real-time reverse transcriptase (RT)-polymerase chain reaction (PCR), Western blotting, and radioimmunoassay. A comparison of antisense-treated and androgen-deprived cells revealed several concordances such as significant downregulation of prostate-specific genes, cell-cycle regulatory genes, genes of the cholesterol biosynthesis pathway, and several cytoskeletal genes. However, there were also several genes that were differentially regulated. Among the genes that were exclusively changed by treatment with the antisense AR ODN were the insulin-like growth factor binding protein 2 (IGFBP2) and the phosphatidylinositol-4-phosphate 5-kinase type I alpha (PIP5KIA). On the other hand, complete androgen receptor blockade induced changes in the expression of the prostate overexpressed gene 1 and the S100 calcium binding protein P. In summary, we identified a cohort of interesting genes whose expression was highly affected by elimination of the AR in LNCaP prostate cancer cells. Further investigations are warranted to clarify their role in the AR signaling pathway and their susceptibility as a target for the treatment of prostate cancer.Molecular Carcinogenesis 09/2003; 37(4):181-91. · 3.16 Impact Factor
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Institutions
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2005–2008
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Medizinische Universität Innsbruck
- Univ.-Klinik für Urologie
Innsbruck, Tyrol, Austria
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2003–2005
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Universität Innsbruck
Innsbruck, Tyrol, Austria
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