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11 results on '"Piovan, Claudia"'

2. Human anti-nucleolin recombinant immunoagent for cancer therapy.

Author

Palmieri, Dario, Richmond, Timothy, Piovan, Claudia, Sheetz, Tyler, Zanesi, Nicola, Troiseb, Fulvia, James, Cindy, Wernicke, Dorothee, Nyei, Fata, Gordon, Timothy J., Consiglio, Jessica, Salvatore, Francesco, Coppolaa, Vincenzo, Pichiorri, Flavia, De Lorenzo, Claudia, and Crocea, Carlo M.

Subjects
ANTINEOPLASTIC agents, NUCLEOLIN, BREAST cancer treatment, LIVER cancer, CANCER cells
Abstract

Nucleolin (NCL) is a nucleocytoplasmic protein involved in many biological processes, such as ribosomal assembly, rRNA processing, and mRNA stabilization. NCL also regulates the biogenesis of specific microRNAs (miRNAs) involved in tumor development and aggressiveness. Interestingly, NCL is expressed on the surface of actively proliferating cancer cells, but not on their normal counterparts. Therefore, NCL is an attractive target for antineoplastic treatments. Taking advantage of phage-display technology, we engineered a fully human single-chain fragment variable, named 4LB5. This immunoagent binds NCL on the cell surface, it is translocated into the cytoplasm of target cells, and it abrogates the biogenesis of NCL-dependent miRNAs. Binding of 4LB5 to NCL on the cell surface of a variety of breast cancer and hepatocellular carcinoma cell lines, but not to normal-like MCF-10a breast cells, dramatically reduces cancer cell viability and proliferation. Finally, in orthotopic breast cancer mouse models, 4LB5 administration results in a significant reduction of the tumor volume without evident side effects. In summary, here we describe, to our knowledge, the first anti-NCL single-chain fragment variable displaying antineoplastic activity against established solid tumors, which could represent the prototype of novel immune-based NCL-targeting drugs with clinical potential as diagnostic and therapeutic tools in a wide variety of human cancers. [ABSTRACT FROM AUTHOR]

Published
2015
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3. A set of NF-κB-regulated microRNAs induces acquired TRAIL resistance in Lung cancer.

Author

Young-Jun Jeon, Middleton, Justin, Taewan Kim, Laganà, Alessandro, Piovan, Claudia, Secchiero, Paola, Nuovo, Gerard J., Ri Cui, Joshi, Pooja, Romano, Giulia, Di Leva, Gianpiero, Bum-Kyu Lee, Hui-Lung Sun, Yonghwan Kim, Fadda, Paolo, Alder, Hansjuerg, Garofalo, Michela, and Croce, Carlo M.

Subjects
MICRORNA, TUMOR necrosis factors, APOPTOSIS, ANTINEOPLASTIC agents, CANCER cell proliferation, TUMOR suppressor genes, TUMOR suppressor proteins, CASPASES
Abstract

TRAIL (TNF-related apoptosis-inducing ligand) is a promising anticancer agent that can be potentially used as an alternative or complementary therapy because of its specific antitumor activity. However, TRAIL can also stimulate the proliferation of cancer cells through the activation of NF-κB, but the exact mechanism is still poorly understood. In this study, we show that chronic exposure to subtoxic concentrations of TRAIL results in acquired resistance. This resistance is associated with the increase in miR-21, miR-30c, and miR-100 expression, which target tumorsuppressor genes fundamental in the response to TRAIL. Importantly, down-regulation of caspase-8 by miR-21 blocks receptor interacting protein-1 cleavage and induces the activation of NF-κB, which regulates these miRNAs. Thus, TRAIL activates a positive feedback loop that sustains the acquired resistance and causes an aggressive phenotype. Finally, we prove that combinatory treatment of NF-κB inhibitors and TRAIL is able to revert resistance and reduce tumor growth, with important consequences for the clinical practice. [ABSTRACT FROM AUTHOR]

Published
2015
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5. Pleiotropic antitumor effects of the pan-HDAC inhibitor ITF2357 against c-Myc-overexpressing human B-cell non-Hodgkin lymphomas.

Author

Zappasodi, Roberta, Cavanè, Alessandra, Iorio, Marilena V., Tortoreto, Monica, Guarnotta, Carla, Ruggiero, Giusi, Piovan, Claudia, Magni, Michele, Zaffaroni, Nadia, Tagliabue, Elda, Croce, Carlo M., Zunino, Franco, Gianni, Alessandro M., and Di Nicola, Massimo

Abstract

Histone deacetylases (HDAC) extensively contribute to the c-Myc oncogenic program, pointing to their inhibition as an effective strategy against c-Myc-overexpressing cancers. We, thus, studied the therapeutic activity of the new-generation pan-HDAC inhibitor ITF2357 (Givinostat®) against c-Myc-overexpressing human B-cell non-Hodgkin lymphomas (B-NHLs). ITF2357 anti-proliferative and pro-apoptotic effects were analyzed in B-NHL cell lines with c-Myc translocations (Namalwa, Raji and DOHH-2), stabilizing mutations (Raji) or post-transcriptional alterations (SU-DHL-4) in relationship to c-Myc modulation. ITF2357 significantly delayed the in vitro growth of all B-NHL cell lines by inducing G1 cell-cycle arrest, eventually followed by cell death. These events correlated with the extent of c-Myc protein, but not mRNA, downregulation, indicating the involvement of post-transcriptional mechanisms. Accordingly, c-Myc-targeting microRNAs let-7a and miR-26a were induced in all treated lymphomas and the cap-dependent translation machinery components 4E-BP1, eIF4E and eIF4G, as well as their upstream regulators, Akt and PIM kinases, were inhibited in function of the cell sensitivity to ITF2357, and, in turn, c-Myc downregulation. In vivo, ITF2357 significantly hampered the growth of Namalwa and Raji xenografts in immunodeficient mice. Noteworthy, its combination with suboptimal cyclophosphamide, achieved complete remissions in most animals and equaled or even exceeded the activity of optimal cyclophosphamide. Collectively, our findings provide the rationale for testing the clinical advantages of adding ITF2357 to current therapies for the still very ominous c-Myc-overexpressing lymphomas. They equally provide the proof-of-concept for its clinical evaluation in rational combination with the promising inhibitors of B-cell receptor and PI3K/Akt/mTOR axis currently in the process of development. [ABSTRACT FROM AUTHOR]

Published
2014
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7. Estrogen Mediated-Activation of miR-191/425 Cluster Modulates Tumorigenicity of Breast Cancer Cells Depending on Estrogen Receptor Status.

Author

Di Leva, Gianpiero, Piovan, Claudia, Gasparini, Pierluigi, Ngankeu, Apollinaire, Taccioli, Cristian, Briskin, Daniel, Cheung, Douglas G., Bolon, Brad, Anderlucci, Laura, Alder, Hansjuerg, Nuovo, Gerard, Meng Li, Iorio, Marilena V., Galasso, Marco, Ramasamy, Santhanam, Marcucci, Guido, Perrotti, Danilo, Powell, Kimerly A., Bratasz, Anna, and Garofalo, Michela

Subjects
MICRORNA, CANCER genetics, CARCINOGENESIS, HORMONE research, CANCER cells
Abstract

MicroRNAs (miRNAs), single-stranded non-coding RNAs, influence myriad biological processes that can contribute to cancer. Although tumor-suppressive and oncogenic functions have been characterized for some miRNAs, the majority of microRNAs have not been investigated for their ability to promote and modulate tumorigenesis. Here, we established that the miR-191/425 cluster is transcriptionally dependent on the host gene, DALRD3, and that the hormone 17β-estradiol (estrogen or E2) controls expression of both miR-191/425 and DALRD3. MiR-191/425 locus characterization revealed that the recruitment of estrogen receptor α (ERα) to the regulatory region of the miR-191/425-DALRD3 unit resulted in the accumulation of miR-191 and miR-425 and subsequent decrease in DALRD3 expression levels. We demonstrated that miR-191 protects ERα positive breast cancer cells from hormone starvation-induced apoptosis through the suppression of tumor-suppressor EGR1. Furthermore, enforced expression of the miR-191/425 cluster in aggressive breast cancer cells altered global gene expression profiles and enabled us to identify important tumor promoting genes, including SATB1, CCND2, and FSCN1, as targets of miR-191 and miR-425. Finally, in vitro and in vivo experiments demonstrated that miR-191 and miR-425 reduced proliferation, impaired tumorigenesis and metastasis, and increased expression of epithelial markers in aggressive breast cancer cells. Our data provide compelling evidence for the transcriptional regulation of the miR-191/ 425 cluster and for its context-specific biological determinants in breast cancers. Importantly, we demonstrated that the miR-191/425 cluster, by reducing the expression of an extensive network of genes, has a fundamental impact on cancer initiation and progression of breast cancer cells. [ABSTRACT FROM AUTHOR]

Published
2013
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8. Oncosuppressive role of p53-induced miR-205 in triple negative breast cancer

Author

Piovan, Claudia, Palmieri, Dario, Di Leva, Gianpiero, Braccioli, Luca, Casalini, Patrizia, Nuovo, Gerard, Tortoreto, Monica, Sasso, Marianna, Plantamura, Ilaria, Triulzi, Tiziana, Taccioli, Cristian, Tagliabue, Elda, Iorio, Marilena V., and Croce, Carlo M.

Subjects
TRIPLE-negative breast cancer, P53 protein, CELL adhesion, MICRORNA, CELL determination, GENOMES, CELL lines
Abstract

Abstract: An increasing body of evidence highlights an intriguing interaction between microRNAs and transcriptional factors involved in determining cell fate, including the well known “genome guardian” p53. Here we show that miR-205, oncosuppressive microRNA lost in breast cancer, is directly transactivated by oncosuppressor p53. Moreover, evaluating miR-205 expression in a panel of cell lines belonging to the highly aggressive triple negative breast cancer (TNBC) subtype, which still lacks an effective targeted therapy and characterized by an extremely undifferentiated and mesenchymal phenotype, we demonstrated that this microRNA is critically down-expressed compared to a normal-like cell line. Re-expression of miR-205 where absent strongly reduces cell proliferation, cell cycle progression and clonogenic potential in vitro, and inhibits tumor growth in vivo, and this tumor suppressor activity is at least partially exerted through targeting of E2F1, master regulator of cell cycle progression, and LAMC1, component of extracellular matrix involved in cell adhesion, proliferation and migration. [Copyright &y& Elsevier]

Published
2012
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9. MicroRNA cluster 221-222 and estrogen receptor alpha interactions in breast cancer.

Author

Di Leva G, Gasparini P, Piovan C, Ngankeu A, Garofalo M, Taccioli C, Iorio MV, Li M, Volinia S, Alder H, Nakamura T, Nuovo G, Liu Y, Nephew KP, Croce CM, Di Leva, Gianpiero, Gasparini, Pierluigi, Piovan, Claudia, Ngankeu, Apollinaire, and Garofalo, Michela

Abstract

Background: Several lines of evidence have suggested that estrogen receptor alpha (ERalpha)-negative breast tumors, which are highly aggressive and nonresponsive to hormonal therapy, arise from ERalpha-positive precursors through different molecular pathways. Because microRNAs (miRNAs) modulate gene expression, we hypothesized that they may have a role in ER-negative tumor formation.Methods: Gene expression profiles were used to highlight the global changes induced by miRNA modulation of ERalpha protein. miRNA transfection and luciferase assays enabled us to identify new targets of miRNA 206 (miR-206) and miRNA cluster 221-222 (miR-221-222). Northern blot, luciferase assays, estradiol treatment, and chromatin immunoprecipitation were performed to identify the miR-221-222 transcription unit and the mechanism implicated in its regulation.Results: Different global changes in gene expression were induced by overexpression of miR-221-222 and miR-206 in ER-positive cells. miR-221 and -222 increased proliferation of ERalpha-positive cells, whereas miR-206 had an inhibitory effect (mean absorbance units [AU]: miR-206: 500 AU, 95% confidence interval [CI]) = 480 to 520; miR-221: 850 AU, 95% CI = 810 to 873; miR-222: 879 AU, 95% CI = 850 to 893; P < .05). We identified hepatocyte growth factor receptor and forkhead box O3 as new targets of miR-206 and miR-221-222, respectively. We demonstrated that ERalpha negatively modulates miR-221 and -222 through the recruitment of transcriptional corepressor partners: nuclear receptor corepressor and silencing mediator of retinoic acid and thyroid hormone receptor.Conclusions: These findings suggest that the negative regulatory loop involving miR-221-222 and ERalpha may confer proliferative advantage and migratory activity to breast cancer cells and promote the transition from ER-positive to ER-negative tumors. [ABSTRACT FROM AUTHOR]

Published
2010
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10. MicroRNA Cluster 221-222 and Estrogen Receptor α Interactions in Breast Cancer.

Author

Di Leva, Gianpiero, Gasparini, Pierluigi, Piovan, Claudia, Ngankeu, Apollinaire, Garofalo, Michela, Taccioli, Cristian, Iorio, Marilena V., Meng Li, Volinia, Stefano, Alder, Hansjuerg, Nakamura, Tatsuya, Nuovo, Gerard, Yunlong Liu, Nephew, Kenneth P., and Croce, Carlo M.

Subjects
ESTROGEN, BREAST cancer, TUMORS, HORMONE therapy, GENE expression
Abstract

Background: Several lines of evidence have suggested that estrogen receptor α (ERα)–negative breast tumors, which are highly aggressive and nonresponsive to hormonal therapy, arise from ERα-positive precursors through different molecular pathways. Because microRNAs (miRNAs) modulate gene expression, we hypothesized that they may have a role in ER-negative tumor formation. [ABSTRACT FROM PUBLISHER]

Published
2010
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