Your search keyword '"Verzella, Daniela"' showing total 6 results

1. Clinical proof of concept for a safe and effective NF‐κB‐targeting strategy in multiple myeloma.

Author

Tornatore, Laura, Capece, Daria, D'Andrea, Daniel, Begalli, Federica, Verzella, Daniela, Bennett, Jason, Bannoo, Selina, Franzoso, Guido, Chambery, Angela, Oblak, Metod, Al‐Obaidi, Magda J., Gabriel, Ian, Kaczmarski, Richard S., Oakervee, Heather E., Kaiser, Martin F., Wechalekar, Ashutosh, Benjamin, Reuben, Apperley, Jane F., Auner, Holger W., and Acton, Gary

Subjects

MULTIPLE myeloma, PROOF of concept

Abstract

The article focuses on the efficiency of the nuclear factor (NF)-ΚB pathway in the treatment of multiple myeloma (MM). It talks about the pathway treatment strategy despite being efficient has not yet been approved in the pharmaceutical industry due to the associated toxicities. It tells about alternative agents like the immunomodulatory drugs and proteasome inhibitors are unable to specifically target the cancer cells in the body.

Published

2019

2. KCTD11 Tumor Suppressor Gene Expression Is Reduced in Prostate Adenocarcinoma.

Author

Zazzeroni, Francesca, Nicosia, Daniela, Tessitore, Alessandra, Gallo, Rita, Verzella, Daniela, Fischietti, Mariafausta, Vecchiotti, Davide, Ventura, Luca, Capece, Daria, Gulino, Alberto, and Alesse, Edoardo

Abstract

Prostate cancer is the most common noncutaneous cancer among men in the United States. A genetic contribution to prostate cancer risk has been documented, but knowledge of the molecular mechanisms involved in prostate cancer initiation is still not well understood. Loss of heterozygosity (LOH) of chromosomal regions is crucial in tumor progression. In human prostate cancer, several chromosomal regions demonstrating a high frequency of LOH have been previously identified. KCTD11 (REN) is a tumor suppressor gene mapping on human chromosome 17p13.2, whose expression is frequently lost in human medulloblastoma and in several other cancer types. KCTD11 acts as a negative regulator of the Hedgehog (Hh) signaling. Here, we demonstrated that KCTD11 LOH is a common genetic lesion in human prostate adenocarcinoma. Indeed, nuclear KCTD11 protein expression is strongly reduced in primary prostate cancer, and this event correlated with overexpression of proteins acting into the Hedgehog pathway. Low levels of KCTD11 mRNA have been also observed in prostatic cancer cells, and ectopic overexpression of KCTD11 led to growth arrest. Our study demonstrates and supports that KCTD11, as well as negatively regulated downstreameffectors belonging to Hh signaling, plays a role in prostate cancer pathogenesis. This could be suitable to characterize new diagnostic and therapeutic markers. [ABSTRACT FROM AUTHOR]

Published

2014

3. MicroRNAs in the DNA Damage/Repair Network and Cancer.

Author

Tessitore, Alessandra, Cicciarelli, Germana, Del Vecchio, Filippo, Gaggiano, Agata, Verzella, Daniela, Fischietti, Mariafausta, Vecchiotti, Davide, Capece, Daria, Zazzeroni, Francesca, and Alesse, Edoardo

Subjects

CANCER, MICRORNA genetics, DNA repair, NEOPLASTIC cell transformation, CELL cycle, APOPTOSIS

Abstract

Cancer is a multistep process characterized by various and different genetic lesions which cause the transformation of normal cells into tumor cells. To preserve the genomic integrity, eukaryotic cells need a complex DNA damage/repair response network of signaling pathways, involving many proteins, able to induce cell cycle arrest, apoptosis, or DNA repair. Chemotherapy and/or radiation therapy are the most commonly used therapeutic approaches to manage cancer and act mainly through the induction of DNA damage. Impairment in the DNA repair proteins, which physiologically protect cells from persistent DNA injury, can affect the efficacy of cancer therapies. Recently, increasing evidence has suggested that microRNAs take actively part in the regulation of the DNA damage/repair network. MicroRNAs are endogenous short noncoding molecules able to regulate gene expression at the post-transcriptional level. Due to their activity, microRNAs play a role in many fundamental physiological and pathological processes. In this review we report and discuss the role of microRNAs in the DNA damage/repair and cancer. [ABSTRACT FROM AUTHOR]

Published

2014

4. The Inflammatory Microenvironment in Hepatocellular Carcinoma: A Pivotal Role for Tumor-Associated Macrophages.

Author

Capece, Daria, Fischietti, Mariafausta, Verzella, Daniela, Gaggiano, Agata, Cicciarelli, Germana, Tessitore, Alessandra, Zazzeroni, Francesca, and Alesse, Edoardo

Abstract

Hepatocellular carcinoma (HCC) is one of the most common and aggressive human cancers worldwide. HCC is an example of inflammation-related cancer and represents a paradigm of the relation occurring between tumor microenvironment and tumor development. Tumor-associated macrophages (TAMs) are a major component of leukocyte infiltrate of tumors and play a pivotal role in tumor progression of inflammation-related cancer, including HCC. Several studies indicate that, in the tumor microenvironment, TAMs acquire an M2-polarized phenotype and promote angiogenesis, metastasis, and suppression of adaptive immunity through the expression of cytokines, chemokines, growth factors, and matrix metalloproteases. Indeed, an established M2 macrophage population has been associated with poor prognosis in HCC. The molecular links that connect cancer cells and TAMs are not completely known, but recent studies have demonstrated that NF-κB, STAT-3, and HIF-1 signaling pathways play key roles in this crosstalk. In this paper, we discuss the current knowledge about the role of TAMs in HCC development, highlighting the role of TAM-derived cytokines, chemokines, and growth factors in the initiation and progression of liver cancer and outlining the signaling pathways involved in the interplay between cancer cells and TAMs. [ABSTRACT FROM AUTHOR]

Published

2013

5. Serum Biomarkers Identification by Mass Spectrometry in High-Mortality Tumors.

Author

Tessitore, Alessandra, Gaggiano, Agata, Cicciarelli, Germana, Verzella, Daniela, Capece, Daria, Fischietti, Mariafausta, Zazzeroni, Francesca, and Alesse, Edoardo

Abstract

Cancer affects millions of people worldwide. Tumor mortality is substantially due to diagnosis at stages that are too late for therapies to be effective. Advances in screening methods have improved the early diagnosis, prognosis, and survival for some cancers. Several validated biomarkers are currently used to diagnose and monitor the progression of cancer, but none of them shows adequate specificity, sensitivity, and predictive value for population screening. So, there is an urgent need to isolate novel sensitive, specific biomarkers to detect the disease early and improve prognosis, especially in high-mortality tumors. Proteomic techniques are powerful tools to help in diagnosis and monitoring of treatment and progression of the disease. During the last decade, mass spectrometry has assumed a key role in most of the proteomic analyses that are focused on identifying cancer biomarkers in human serum, making it possible to identify and characterize at the molecular level many proteins or peptides differentially expressed. In this paper we summarize the results of mass spectrometry serum profiling and biomarker identification in high mortality tumors, such as ovarian, liver, lung, and pancreatic cancer. [ABSTRACT FROM AUTHOR]

Published

2013

6. Targeting Costimulatory Molecules to Improve Antitumor Immunity.

Author

Capece, Daria, Verzella, Daniela, Fischietti, Mariafausta, Zazzeroni, Francesca, and Alesse, Edoardo

Abstract

The full activation of T cells necessitates the concomitant activation of two signals, the engagement of T-cell receptor by peptide/major histocompatibility complex II and an additional signal delivered by costimulatory molecules. The best characterized costimulatory molecules belong to B7/CD28 and TNF/TNFR families and play crucial roles in the modulation of immune response and improvement of antitumor immunity. Unfortunately, tumors often generate an immunosuppressive microenvironment, where T-cell response is attenuated by the lack of costimulatory molecules on the surface of cancer cells. Thus, targeting costimulatory pathways represent an attractive therapeutic strategy to enhance the antitumor immunity in several human cancers. Here, latest therapeutic approaches targeting costimulatory molecules will be described. [ABSTRACT FROM AUTHOR]

Published

2012