Your search keyword '"Georgopoulos LJ"' showing total 8 results

1. Evaluating Baculovirus as a Vector for Human Prostate Cancer Gene Therapy

Author

Swift, SL, Rivera, GC, Dussupt, V, Leadley, RM, Hudson, LC, de Ridder, Corrina, Kraaij, Robert, Burns, JE, Maitland, NJ, Georgopoulos, LJ, Swift, SL, Rivera, GC, Dussupt, V, Leadley, RM, Hudson, LC, de Ridder, Corrina, Kraaij, Robert, Burns, JE, Maitland, NJ, and Georgopoulos, LJ

Abstract

Gene therapy represents an attractive strategy for the non-invasive treatment of prostate cancer, where current clinical interventions show limited efficacy. Here, we evaluate the use of the insect virus, baculovirus (BV), as a novel vector for human prostate cancer gene therapy. Since prostate tumours represent a heterogeneous environment, a therapeutic approach that achieves long-term regression must be capable of targeting multiple transformed cell populations. Furthermore, discrimination in the targeting of malignant compared to non-malignant cells would have value in minimising side effects. We employed a number of prostate cancer models to analyse the potential for BV to achieve these goals. In vitro, both traditional prostate cell lines as well as primary epithelial or stromal cells derived from patient prostate biopsies, in two-or three-dimensional cultures, were used. We also evaluated BV in vivo in murine prostate cancer xenograft models. BV was capable of preferentially transducing invasive malignant prostate cancer cell lines compared to early stage cancers and non-malignant samples, a restriction that was not a function of nuclear import. Of more clinical relevance, primary patient-derived prostate cancer cells were also efficiently transduced by BV, with robust rates observed in epithelial cells of basal phenotype, which expressed BV-encoded transgenes faster than epithelial cells of a more differentiated, luminal phenotype. Maximum transduction capacity was observed in stromal cells. BV was able to penetrate through three-dimensional structures, including in vitro spheroids and in vivo orthotopic xenografts. BV vectors containing a nitroreductase transgene in a gene-directed enzyme pro-drug therapy approach were capable of efficiently killing malignant prostate targets following administration of the pro-drug, CB1954. Thus, BV is capable of transducing a large proportion of prostate cell types within a heterogeneous 3-D prostate tumour, can facilitate

Published

2013

2. Evaluating baculovirus as a vector for human prostate cancer gene therapy.

Author

Swift SL, Rivera GC, Dussupt V, Leadley RM, Hudson LC, Ma de Ridder C, Kraaij R, Burns JE, Maitland NJ, and Georgopoulos LJ

Subjects

Animals, Cell Line, Cell Line, Tumor, Cell Survival genetics, Cell Survival physiology, Flow Cytometry, Humans, Male, Mice, Mice, Nude, Microscopy, Confocal, Tumor Cells, Cultured, Xenograft Model Antitumor Assays, Baculoviridae genetics, Genetic Therapy methods, Genetic Vectors genetics, Prostatic Neoplasms therapy

Abstract

Gene therapy represents an attractive strategy for the non-invasive treatment of prostate cancer, where current clinical interventions show limited efficacy. Here, we evaluate the use of the insect virus, baculovirus (BV), as a novel vector for human prostate cancer gene therapy. Since prostate tumours represent a heterogeneous environment, a therapeutic approach that achieves long-term regression must be capable of targeting multiple transformed cell populations. Furthermore, discrimination in the targeting of malignant compared to non-malignant cells would have value in minimising side effects. We employed a number of prostate cancer models to analyse the potential for BV to achieve these goals. In vitro, both traditional prostate cell lines as well as primary epithelial or stromal cells derived from patient prostate biopsies, in two- or three-dimensional cultures, were used. We also evaluated BV in vivo in murine prostate cancer xenograft models. BV was capable of preferentially transducing invasive malignant prostate cancer cell lines compared to early stage cancers and non-malignant samples, a restriction that was not a function of nuclear import. Of more clinical relevance, primary patient-derived prostate cancer cells were also efficiently transduced by BV, with robust rates observed in epithelial cells of basal phenotype, which expressed BV-encoded transgenes faster than epithelial cells of a more differentiated, luminal phenotype. Maximum transduction capacity was observed in stromal cells. BV was able to penetrate through three-dimensional structures, including in vitro spheroids and in vivo orthotopic xenografts. BV vectors containing a nitroreductase transgene in a gene-directed enzyme pro-drug therapy approach were capable of efficiently killing malignant prostate targets following administration of the pro-drug, CB1954. Thus, BV is capable of transducing a large proportion of prostate cell types within a heterogeneous 3-D prostate tumour, can facilitate cell death using a pro-drug approach, and shows promise as a vector for the treatment of prostate cancer.

Published

2013

3. Retinoic acid and androgen receptors combine to achieve tissue specific control of human prostatic transglutaminase expression: a novel regulatory network with broader significance.

Author

Rivera-Gonzalez GC, Droop AP, Rippon HJ, Tiemann K, Pellacani D, Georgopoulos LJ, and Maitland NJ

Subjects

Androgens pharmacology, Cell Line, Tumor, Enhancer Elements, Genetic, Humans, Male, Metribolone pharmacology, Promoter Regions, Genetic, Prostate metabolism, Prostatic Neoplasms enzymology, Prostatic Neoplasms genetics, Receptors, Retinoic Acid physiology, Transcriptional Activation, Transglutaminases metabolism, Tretinoin pharmacology, Retinoic Acid Receptor gamma, Gene Expression Regulation, Enzymologic drug effects, Gene Regulatory Networks, Prostate enzymology, Receptors, Androgen metabolism, Receptors, Retinoic Acid metabolism, Transglutaminases genetics

Abstract

In the human prostate, expression of prostate-specific genes is known to be directly regulated by the androgen-induced stimulation of the androgen receptor (AR). However, less is known about the expression control of the prostate-restricted TGM4 (hTGP) gene. In the present study we demonstrate that the regulation of the hTGP gene depends mainly on retinoic acid (RA). We provide evidence that the retinoic acid receptor gamma (RAR-G) plays a major role in the regulation of the hTGP gene and that presence of the AR, but not its transcriptional transactivation activity, is critical for hTGP transcription. RA and androgen responsive elements (RARE and ARE) were mapped to the hTGP promoter by chromatin immunoprecipitation (ChIP), which also indicated that the active ARE and RARE sites were adjacent, suggesting that the antagonistic effect of androgen and RA is related to the relative position of binding sites. Publicly available AR and RAR ChIP-seq data was used to find gene potentially regulated by AR and RAR. Four of these genes (CDCA7L, CDK6, BTG1 and SAMD3) were tested for RAR and AR binding and two of them (CDCA7L and CDK6) proved to be antagonistically regulated by androgens and RA confirming that this regulation is not particular of hTGP.

Published

2012

4. Baculoviruses as gene therapy vectors for human prostate cancer.

Author

Rivera-Gonzalez GC, Swift SL, Dussupt V, Georgopoulos LJ, and Maitland NJ

Subjects

Gene Expression Regulation, Viral, Gene Transfer Techniques, Genetic Vectors, Humans, Male, Nucleopolyhedroviruses pathogenicity, Prostatic Neoplasms genetics, Prostatic Neoplasms immunology, Genetic Therapy methods, Nucleopolyhedroviruses genetics, Prostatic Neoplasms therapy

Abstract

Prostate cancer is the most commonly diagnosed cancer in ageing men in the western world. While the primary cancers can be treated with androgen ablation, radiotherapy and surgery, recurrent castration resistant cancers have an extremely poor prognosis, hence promoting research that could lead to a better treatment. Targeted therapeutic gene therapy may provide an attractive option for these patients. By exploiting the natural ability of viruses to target and transfer their genes into cancer cells, either naturally or after genetic manipulation, new generations of biological control can be developed. In this review we present the advantages and practicalities of using baculovirus as a vector for prostate cancer gene therapy and provide evidence for the potential of the baculovirus Autographa californica multiple nucleopolyhedrovirus (AcMNPV) as a safer alternative vehicle for targeting cancer cells. Strategies to target baculovirus binding specifically to prostate cell surfaces are also presented. The large insertion capacity of baculoviruses also permits restricted, prostate-specific gene expression of therapeutic genes by cloning extended human transcriptional control sequences into the baculovirus genome., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

5. Clinical adenoviral gene therapy for prostate cancer.

Author

Schenk E, Essand M, Bangma CH, Barber C, Behr JP, Briggs S, Carlisle R, Cheng WS, Danielsson A, Dautzenberg IJ, Dzojic H, Erbacher P, Fisher K, Frazier A, Georgopoulos LJ, Hoeben R, Kochanek S, Koppers-Lalic D, Kraaij R, Kreppel F, Lindholm L, Magnusson M, Maitland N, Neuberg P, Nilsson B, Ogris M, Remy JS, Scaife M, Schooten E, Seymour L, Totterman T, Uil TG, Ulbrich K, Veldhoven-Zweistra JL, de Vrij J, van Weerden W, Wagner E, and Willemsen R

Subjects

Genetic Therapy trends, Humans, Male, Neoplasm Staging, Prostatic Neoplasms radiotherapy, Prostatic Neoplasms surgery, Treatment Outcome, Adenoviridae genetics, Genetic Therapy methods, Prostatic Neoplasms therapy

Abstract

Prostate cancer is at present the most common malignancy in men in the Western world. When localized to the prostate, this disease can be treated by curative therapy such as surgery and radiotherapy. However, a substantial number of patients experience a recurrence, resulting in spreading of tumor cells to other parts of the body. In this advanced stage of the disease only palliative treatment is available. Therefore, there is a clear clinical need for new treatment modalities that can, on the one hand, enhance the cure rate of primary therapy for localized prostate cancer and, on the other hand, improve the treatment of metastasized disease. Gene therapy is now being explored in the clinic as a treatment option for the various stages of prostate cancer. Current clinical experiences are based predominantly on trials with adenoviral vectors. As the first of a trilogy of reviews on the state of the art and future prospects of gene therapy in prostate cancer, this review focuses on the clinical experiences and progress of adenovirus-mediated gene therapy for this disease.

Published

2010

6. Adenovirus-derived vectors for prostate cancer gene therapy.

Author

de Vrij J, Willemsen RA, Lindholm L, Hoeben RC, Bangma CH, Barber C, Behr JP, Briggs S, Carlisle R, Cheng WS, Dautzenberg IJ, de Ridder C, Dzojic H, Erbacher P, Essand M, Fisher K, Frazier A, Georgopoulos LJ, Jennings I, Kochanek S, Koppers-Lalic D, Kraaij R, Kreppel F, Magnusson M, Maitland N, Neuberg P, Nugent R, Ogris M, Remy JS, Scaife M, Schenk-Braat E, Schooten E, Seymour L, Slade M, Szyjanowicz P, Totterman T, Uil TG, Ulbrich K, van der Weel L, van Weerden W, Wagner E, and Zuber G

Subjects

Humans, Male, Adenoviridae genetics, Genetic Therapy methods, Genetic Therapy trends, Genetic Vectors genetics, Prostatic Neoplasms therapy

Abstract

Prostate cancer is a leading cause of death among men in Western countries. Whereas the survival rate approaches 100% for patients with localized cancer, the results of treatment in patients with metastasized prostate cancer at diagnosis are much less successful. The patients are usually presented with a variety of treatment options, but therapeutic interventions in prostate cancer are associated with frequent adverse side effects. Gene therapy and oncolytic virus therapy may constitute new strategies. Already a wide variety of preclinical studies has demonstrated the therapeutic potential of such approaches, with oncolytic prostate-specific adenoviruses as the most prominent vector. The state of the art and future prospects of gene therapy in prostate cancer are reviewed, with a focus on adenoviral vectors. We summarize advances in adenovirus technology for prostate cancer treatment and highlight areas where further developments are necessary.

Published

2010

7. Preclinical evaluation of innate immunity to baculovirus gene therapy vectors in whole human blood.

Author

Georgopoulos LJ, Elgue G, Sanchez J, Dussupt V, Magotti P, Lambris JD, Tötterman TH, Maitland NJ, and Nilsson B

Subjects

Baculoviridae genetics, Complement C3b immunology, Complement C5a pharmacology, Complement Membrane Attack Complex drug effects, Cytokines biosynthesis, Cytokines immunology, Genetic Vectors genetics, Humans, Immunoassay, Immunoglobulin M blood, Peptides, Cyclic pharmacology, Baculoviridae immunology, Complement Membrane Attack Complex immunology, Genetic Therapy, Genetic Vectors blood, Genetic Vectors immunology, Immunity, Innate drug effects

Abstract

Interactions of gene therapy vectors with human blood components upon intravenous administration have a significant effect on vector efficacy and patient safety. Here we describe methods to evaluate these interactions and their effects in whole human blood, using baculovirus vectors as a model. Opsonisation of baculovirus particles by binding of IgM and C3b was demonstrated, which is likely to be the cause of the significant blood cell-associated virus that was detected. Preventing formation of the complement C5b-9 (membrane attack) complex maintained infectivity of baculovirus particles as shown by studying the effects of two specific complement inhibitors, Compstatin and a C5a receptor antagonist. Formation of macroscopic blood clots after 4h was prevented by both complement inhibitors. Pro- and anti-inflammatory cytokines Il-1beta, IL-6, IL-8 and TNF-alpha were produced at variable levels between volunteers and complement inhibitors showed patient-specific effects on cytokine levels. Whilst both complement inhibitors could play a role in protecting patients from aggressive inflammatory reactions, only Compstatin maintained virus infectivity. We conclude that this ex vivo model, used here for the first time with infectious agents, is a valuable tool in evaluating human innate immune responses to gene therapy vectors or to predict the response of individual patients as part of a clinical trial or treatment. The use of complement inhibitors for therapeutic viruses should be considered on a patient-specific basis.

Published

2009

8. Identification of genes differentially expressed as result of adenovirus type 5- and adenovirus type 12-transformation.

Author

Strath J, Georgopoulos LJ, Kellam P, and Blair GE

Subjects

Adenoviruses, Human genetics, Animals, Cell Line, Transformed, Gene Expression Regulation, Oligonucleotide Array Sequence Analysis, RNA metabolism, Rats, Rats, Wistar, Adenoviridae Infections genetics, Adenoviruses, Human physiology, Cell Transformation, Viral genetics

Abstract

Background: Cells transformed by human adenoviruses (Ad) exhibit differential capacities to induce tumours in immunocompetent rodents; for example, Ad12-transformed rodent cells are oncogenic whereas Ad5-transformed cells are not. The E1A gene determines oncogenic phenotype, is a transcriptional regulator and dysregulates host cell gene expression, a key factor in both cellular transformation and oncogenesis. To reveal differences in gene expression between cells transformed with oncogenic and non-oncogenic adenoviruses we have performed comparative analysis of transcript profiles with the aim of identifying candidate genes involved in the process of neoplastic transformation., Results: Analysis of microarray data revealed that a total of 232 genes were differentially expressed in Ad12 E1- or Ad5 E1-transformed BRK cells compared to untransformed baby rat kidney (BRK) cells. Gene information was available for 193 transcripts and using gene ontology (GO) classifications and literature searches it was possible to assign known or suggested functions to 166 of these identified genes. A subset of differentially-expressed genes from the microarray was further examined by real-time PCR and Western blotting using BRK cells immortalised by Ad12 E1A or Ad5 E1A in addition to Ad12 E1- or Ad5 E1-transformed BRK cells. Up-regulation of RelA and significant dysregulation of collagen type I mRNA transcripts and proteins were found in Ad-transformed cells., Conclusion: These results suggest that a complex web of cellular pathways become altered in Ad-transformed cells and that Ad E1A is sufficient for the observed dysregulation. Further work will focus on investigating which splice variant of Ad E1A is responsible for the observed dysregulation at the pathway level, and the mechanisms of E1A-mediated transcriptional regulation.

Published

2009