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1. Ribozyme-mediated inhibition of survivin expression increases spontaneous and drug-induced apoptosis and decreases the tumorigenic potential of human prostate cancer cells.

Author

Pennati M, Binda M, Colella G, Zoppe' M, Folini M, Vignati S, Valentini A, Citti L, De Cesare M, Pratesi G, Giacca M, Daidone MG, and Zaffaroni N

Subjects
Animals, Base Pairing, Base Sequence, Cell Cycle, Cell Line, Tumor, Cell Transformation, Neoplastic, Cisplatin pharmacology, Gene Expression Regulation, Neoplastic, Genetic Therapy methods, Genetic Vectors genetics, Humans, Inhibitor of Apoptosis Proteins, Male, Mice, Mice, Nude, Microtubule-Associated Proteins metabolism, Neoplasm Proteins, Prostatic Neoplasms genetics, RNA, Catalytic chemistry, RNA, Catalytic genetics, Retroviridae genetics, Survivin, Transduction, Genetic, Apoptosis drug effects, Microtubule-Associated Proteins deficiency, Microtubule-Associated Proteins genetics, Prostatic Neoplasms metabolism, Prostatic Neoplasms pathology, RNA, Catalytic metabolism
Abstract

Survivin is a member of the inhibitor of apoptosis protein (IAP) family, which has been implicated in inhibition of apoptosis and control of mitotic progression. The finding that survivin is overexpressed in most human tumors but absent in normal adult tissues has led to the proposal of survivin as a promising therapeutic target for anticancer therapies. We decided to evaluate the effects of a ribozyme-based strategy for survivin inhibition in androgen-independent human prostate cancer cells. We constructed a Moloney-based retroviral vector expressing a ribozyme targeting the 3' end of the CUA(110) triplet in survivin mRNA, encoded as a chimeric RNA within adenoviral VA1 RNA. Polyclonal cell populations obtained by infection with the retroviral vector of two androgen-independent human prostate cancer cell lines (DU145 and PC-3) were selected for the study. Ribozyme-expressing prostate cancer cells were characterized by a significant reduction of survivin expression compared to parental cells transduced with a control ribozyme; the cells became polyploid, underwent caspase-9-dependent apoptosis and showed an altered pattern of gene expression, as detected by oligonucleotide array analysis. Survivin inhibition also increased the susceptibility of prostate cancer cells to cisplatin-induced apoptosis and prevented tumor formation when cells were xenografted in athymic nude mice. These findings suggest that manipulation of the antiapoptotic survivin pathway may provide a novel approach for the treatment of androgen-independent prostate cancer.

Published
2004
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2. PARP1 is activated at telomeres upon G4 stabilization: possible target for telomere-based therapy.

Author

Salvati, E, Scarsella, M, Porru, M, Rizzo, A, Iachettini, S, Tentori, L, Graziani, G, D'Incalci, M, Stevens, M F G, Orlandi, A, Passeri, D, Gilson, E, Zupi, G, Leonetti, C, and Biroccio, A

Subjects
CANCER treatment, TELOMERES, QUADRUPLEX nucleic acids, ADENOSINE diphosphate, CHROMOSOME abnormalities, XENOGRAFTS, CANCER cell growth, TREATMENT effectiveness
Abstract

New anti-telomere strategies represent important goals for the development of selective cancer therapies. In this study, we reported that uncapped telomeres, resulting from pharmacological stabilization of quadruplex DNA by RHPS4 (3,11-difluoro-6,8,13-trimethyl-8H-quino[4,3,2-kl]acridinium methosulfate), trigger specific recruitment and activation of poly-adenosine diphosphate (ADP) ribose polymerase I (PARP1) at the telomeres, forming several ADP-ribose polymers that co-localize with the telomeric repeat binding factor 1 protein and are inhibited by selective PARP(s) inhibitors or PARP1-specific small interfering RNAs. The knockdown of PARP1 prevents repairing of RHPS4-induced telomere DNA breaks, leading to increases in chromosome abnormalities and eventually to the inhibition of tumor cell growth both in vitro and in xenografts. More interestingly, the integration of a TOPO1 inhibitor on the combination treatment proved to have a high therapeutic efficacy ensuing a complete regression of the tumor as well as a significant increase in overall survival and cure of mice even when treatments started at a very late stage of tumor growth. Overall, this work reveals the unexplored link between the PARP1 and G-quadruplex ligands and demonstrates the excellent efficacy of a multi-component strategy based on the use of PARP inhibitors in telomere-based therapy. [ABSTRACT FROM AUTHOR]

Published
2010
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3. Identification of novel genomic markers related to progression to glioblastoma through genomic profiling of 25 primary glioma cell lines.

Author

Roversi, G., Pfundt, R., Moroni, R. F., Magnani, I., van Reijmersdal, S., Pollo, B., Straatman, H., Larizza, L., and Schoenmakers, E. F. P. M.

Subjects
CELL lines, GLIOBLASTOMA multiforme, NERVOUS system tumors, CELL culture, GLIOMAS, CYSTS (Pathology)
Abstract

Identification of genetic copy number changes in glial tumors is of importance in the context of improved/refined diagnostic, prognostic procedures and therapeutic decision-making. In order to detect recurrent genomic copy number changes that might play a role in glioma pathogenesis and/or progression, we characterized 25 primary glioma cell lines including 15 non glioblastoma (non GBM) (I–III WHO grade) and 10 GBM (IV WHO grade), by array comparative genomic hybridization, using a DNA microarray comprising approx. 3500 BACs covering the entire genome with a 1 Mb resolution and additional 800 BACs covering chromosome 19 at tiling path resolution. Combined evaluation by single clone and whole chromosome analysis plus ‘moving average (MA) approach’ enabled us to confirm most of the genetic abnormalities previously identified to be associated with glioma progression, including +1q32, +7, −10, −22q, PTEN and p16 loss, and to disclose new small genomic regions, some correlating with grade malignancy. Grade I–III gliomas exclusively showed losses at 3p26 (53%), 4q13–21 (33%) and 7p15–p21 (26%), whereas only GBMs exhibited 4p16.1 losses (40%). Other recurrent imbalances, such as losses at 4p15, 5q22–q23, 6p23–25, 12p13 and gains at 11p11–q13, were shared by different glioma grades. Three intervals with peak of loss could be further refined for chromosome 10 by our MA approach. Data analysis of full-coverage chromosome 19 highlighted two main regions of copy number gain, never described before in gliomas, at 19p13.11 and 19q13.13–13.2. The well-known 19q13.3 loss of heterozygosity area in gliomas was not frequently affected in our cell lines. Genomic hotspot detection facilitated the identification of small intervals resulting in positional candidate genes such as PRDM2 (1p36.21), LRP1B (2q22.3), ADARB2 (10p15.3), BCCIP (10q26.2) and ING1 (13q34) for losses and ECT2 (3q26.3), MDK, DDB2, IG20 (11p11.2) for gains. These data increase our current knowledge about cryptic genetic changes in gliomas and may facilitate the further identification of novel genetic elements, which may provide us with molecular tools for the improved diagnostics and therapeutic decision-making in these tumors.Oncogene (2006) 25, 1571–1583. doi:10.1038/sj.onc.1209177; published online 24 October 2005 [ABSTRACT FROM AUTHOR]

Published
2006
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4. BARD1 induces apoptosis by catalysing phosphorylation of p53 by DNA-damage response kinase.

Author

Feki, Anis, Jefford, Charles Edward, Berardi, Philip, Wu, Jian-Yu, Cartier, Laetitia, Krause, Karl-Heinz, and Irminger-Finger, Irmgard

Subjects
PHOSPHORYLATION, CATALYSTS, APOPTOSIS, CHEMICAL inhibitors, EXFOLIATIVE cytology, CHEMICAL reactions
Abstract

The BRCA1-associated RING domain protein BARD1 acts with BRCA1 in double-strand break repair and ubiquitination. BARD1 plays a role as mediator of apoptosis by binding to and stabilizing p53, and BARD1-repressed cells are resistant to apoptosis. We therefore investigated the mechanism by which BARD1 induces p53 stability and apoptosis. The apoptotic activity of p53 is regulated by phosphorylation. We demonstrate that BARD1 binds to unphosphorylated and serine-15 phosphorylated forms of p53 in several cell types and that the region required for binding comprises the region sufficient for apoptosis induction. In addition, BARD1 binds to Ku-70, the regulatory subunit of DNA-PK, suggesting that the mechanism of p53-induced apoptosis requires BARD1 for the phosphorylation of p53. Upregulation of BARD1 alone is sufficient for stabilization of p53 and phosphorylation on serine-15, as shown in nonmalignant epithelial cells and ovarian cancer cells, NuTu-19, which are defective in apoptosis induction and express aberrant splice variants of BARD1. Stabilization and phosphorylation of p53 in NuTu-19 cells, as well as apoptosis, can be induced by the exogenous expression of wild-type BARD1, suggesting that BARD1, by binding to the kinase and its substrate, catalyses p53 phosphorylation.Oncogene (2005) 24, 3726-3736. doi:10.1038/sj.onc.1208491 Published online 14 March 2005 [ABSTRACT FROM AUTHOR]

Published
2005
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5. An alternatively spliced survivin variant is positively regulated by p53 and sensitizes leukemia cells to chemotherapy.

Author

Zhu, Ningxi, Gu, Lubing, Findley, Harry W., Li, Fengzhi, and Zhou, Muxiang

Subjects
LEUKEMIA, P53 protein, DNA-binding proteins, CANCER cells, APOPTOSIS, DRUG therapy
Abstract

Survivin is a unique member of the inhibitor of apoptosis protein family, and its expression is regulated by p53. Recent identification of several functionally divergent survivin variants augments the complexity of survivin action as well as its regulation. Here we report that survivin-2B (retaining a part of intron 2 as a cryptic exon) is positively regulated by p53, and its overexpression plays a role in sensitizing leukemia cells to chemotherapeutic drug doxorubicin. Doxorubicin treatment activated p53, downregulated survivin and survivin-?Ex3 but upregulated survivin-2B in EU-3, an acute lymphocytic leukemia (ALL) cell line with wild-type (wt)-p53 phenotype. In contrast, doxorubicin treatment failed to induce these alterations in EU-6 cells, a mutant-p53 ALL cell line. To specify the role of wt-p53 in regulating survivin and its variants, a temperature-sensitive p53 mutant plasmid p53-143 was transfected into EU-4, a p53-null ALL cell line, to establish a subline EU-4/p53-143. When EU-4/p53-143 cell culture was shifted from 37.5°C to the wt-p53-permissive temperature (32.5°C), the expression of survivin and survivin-?Ex3 was decreased whereas survivin-2B expression was increased, confirming the distinct regulatory effect of p53 on survivin and its variants. To clarify the role of survivin-2B in the process of apoptosis, survivin-2B cDNA was cloned into pcDNA3HA vector and transfected into EU-4 cells. Enforced expression of survivin-2B in EU-4 cells inhibited cell growth and sensitized these cells to doxorubicin-induced apoptosis. These results suggest that survivin-2B variant is a proapoptotic factor and its expression is upregulated by p53.Oncogene (2004) 23, 7545-7551. doi:10.1038/sj.onc.1208038 Published online 30 August 2004 [ABSTRACT FROM AUTHOR]

Published
2004
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6. Mechanisms of resistance to topoisomerase I-targeting drugs.

Author

Rasheed, Zeshaan A and Rubin, Eric H

Subjects
DRUG resistance in cancer cells, DNA topoisomerase I, CHEMOPREVENTION, CAMPTOTHECIN, ENZYMES
Abstract

DNA topoisomerases are a class of enzymes that alter the topology of DNA and are targets of several anticancer drugs. Camptothecins (CPTs) are a relatively new family of compounds that specifically target topoisomerase I (Top1). These compounds ‘poison’ Top1 by binding to the Top1-DNA complex in a manner that prevents the religation of DNA. Topotecan and irinotecan are two CPTs that are approved for the treatment of a variety of malignancies, including colorectal, ovarian, and small cell lung cancers, as well as myeloid malignancies. Although CPTs have proven to be effective anticancer drugs, resistance is still a critical clinical problem. The mechanisms underlying de novo and acquired clinical resistance to CPTs and the newer classes of Top1 poisons are unclear. However, based on preclinical studies, it is likely that clinical resistance to these drugs is the result of: (1) inadequate accumulation of drug in the tumor, (2) resistance-conferring alterations in Top1, or (3) alterations in the cellular response to the Top1-CPT interaction. This review will focus on the current knowledge regarding mechanisms of resistance to CPTs and other Top1-targeting drugs.Oncogene (2003) 22, 7296-7304. doi:10.1038/sj.onc.1206935 [ABSTRACT FROM AUTHOR]

Published
2003
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7. Ribozyme-mediated inhibition of survivin expression increases spontaneous and drug-induced apoptosis and decreases the tumorigenic potential of human prostate cancer cells

Author

Mauro Giacca, Graziella Pratesi, Mara Binda, Michelandrea De Cesare, Marco Folini, Sara Vignati, Lorenzo Citti, Alessandra Valentini, Nadia Zaffaroni, Marzia Pennati, Gennaro Colella, Monica Zoppè, Maria Grazia Daidone, Pennati, M., Binda, M., Colella, G., Zoppe, M., Folini, M., Vignati, S., Valentini, A., Citti, L., DE CESARE, M., Pratesi, G., Giacca, Mauro, Daidone, M. G., and Zaffaroni, N.

Subjects
Male, Cancer Research, Survivin, Genetic Vectors, Mice, Nude, Apoptosis, Biology, medicine.disease_cause, Inhibitor of apoptosis, Inhibitor of Apoptosis Proteins, Prostate cancer, Mice, DU145, Transduction, Genetic, Cell Line, Tumor, Genetics, medicine, Animals, Humans, RNA, Catalytic, Molecular Biology, Base Pairing, Base Sequence, Cell Cycle, Ribozyme, Prostatic Neoplasms, Genetic Therapy, medicine.disease, Neoplasm Proteins, Gene Expression Regulation, Neoplastic, Cell Transformation, Neoplastic, Retroviridae, Cancer cell, biology.protein, Cancer research, Cisplatin, Carcinogenesis, Microtubule-Associated Proteins
Abstract

Survivin is a member of the inhibitor of apoptosis protein (IAP) family, which has been implicated in inhibition of apoptosis and control of mitotic progression. The finding that survivin is overexpressed in most human tumors but absent in normal adult tissues has led to the proposal of survivin as a promising therapeutic target for anticancer therapies. We decided to evaluate the effects of a ribozyme-based strategy for survivin inhibition in androgen-independent human prostate cancer cells. We constructed a Moloney-based retroviral vector expressing a ribozyme targeting the 3' end of the CUA(110) triplet in survivin mRNA, encoded as a chimeric RNA within adenoviral VA1 RNA. Polyclonal cell populations obtained by infection with the retroviral vector of two androgen-independent human prostate cancer cell lines (DU145 and PC-3) were selected for the study. Ribozyme-expressing prostate cancer cells were characterized by a significant reduction of survivin expression compared to parental cells transduced with a control ribozyme; the cells became polyploid, underwent caspase-9-dependent apoptosis and showed an altered pattern of gene expression, as detected by oligonucleotide array analysis. Survivin inhibition also increased the susceptibility of prostate cancer cells to cisplatin-induced apoptosis and prevented tumor formation when cells were xenografted in athymic nude mice. These findings suggest that manipulation of the antiapoptotic survivin pathway may provide a novel approach for the treatment of androgen-independent prostate cancer.

Published
2004

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