Your search keyword '"Bordoni, Valentina"' showing total 14 results

1. Identification of 3-Aryl-1-benzotriazole-1-yl-acrylonitrile as a Microtubule-Targeting Agent (MTA) in Solid Tumors.

Author

Zoroddu, Stefano, Sanna, Luca, Bordoni, Valentina, Weidong, Lyu, Gadau, Sergio Domenico, Carta, Antonio, Kelvin, David J., and Bagella, Luigi

Subjects

CANCER cell growth, CELL cycle, BIOLOGICAL assay, DNA replication, TUMOR growth, CELL cycle regulation

Abstract

Recently, a compound derived from recent scientific advances named 34 has emerged as the focus of this research, the aim of which is to explore its potential impact on solid tumor cell lines. Using a combination of bioinformatics and biological assays, this study conducted an in-depth investigation of the effects of 34. The results of this study have substantial implications for cancer research and treatment. 34 has shown remarkable efficacy in inhibiting the growth of several cancer cell lines, including those representing prostate carcinoma (PC3) and cervical carcinoma (HeLa). The high sensitivity of these cells, indicated by low IC50 values, underscores its potential as a promising chemotherapeutic agent. In addition, 34 has revealed the ability to induce cell cycle arrest, particularly in the G2/M phase, a phenomenon with critical implications for tumor initiation and growth. By interfering with DNA replication in cancer cells, 34 has shown the capacity to trigger cell death, offering a new avenue for cancer treatment. In addition, computational analyses have identified key genes affected by 34 treatment, suggesting potential therapeutic targets. These genes are involved in critical biological processes, including cell cycle regulation, DNA replication and microtubule dynamics, all of which are central to cancer development and progression. In conclusion, this study highlights the different mechanisms of 34 that inhibit cancer cell growth and alter the cell cycle. These promising results suggest the potential for more effective and less toxic anticancer therapies. Further in vivo validation and exploration of combination therapies are critical to improve cancer treatment outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

2. RNAseq Analysis of Novel 1,3,4-Oxadiazole Chalcogen Analogues Reveals Anti-Tubulin Properties on Cancer Cell Lines.

Author

Zoroddu, Stefano, Sanna, Luca, Bordoni, Valentina, Lyu, Weidong, Murineddu, Gabriele, Pinna, Gerard A., Forcales, Sonia Vanina, Sala, Arturo, Kelvin, David J., and Bagella, Luigi

Subjects

RNA sequencing, TUBULINS, GENE expression, CELL cycle, CELL lines, CANCER cells, HELA cells

Abstract

1,3,4-Oxadiazole derivatives are among the most studied anticancer drugs. Previous studies have analyzed the action of different 1,3,4-oxadiazole derivatives and their effects on cancer cells. This study investigated the characterization of two new compounds named 6 and 14 on HeLa and PC-3 cancer cell lines. Based on the previously obtained IC50, cell cycle effects were monitored by flow cytometry. RNA sequencing (RNAseq) was performed to identify differentially expressed genes, followed by functional annotation using gene ontology (GO), KEGG signaling pathway enrichment, and protein–protein interaction (PPI) network analyses. The tubulin polymerization assay was used to analyze the interaction of both compounds with tubulin. The results showed that 6 and 14 strongly inhibited the proliferation of cancer cells by arresting them in the G2/M phase of the cell cycle. Transcriptome analysis showed that exposure of HeLa and PC-3 cells to the compounds caused a marked reprograming of gene expression. Functional enrichment analysis indicated that differentially expressed genes were significantly enriched throughout the cell cycle and cancer-related biological processes. Furthermore, PPI network, hub gene, and CMap analyses revealed that compounds 14 and 6 shared target genes with established microtubule inhibitors, indicating points of similarity between the two molecules and microtubule inhibitors in terms of the mechanism of action. They were also able to influence the polymerization process of tubulin, suggesting the potential of these new compounds to be used as efficient chemotherapeutic agents. [ABSTRACT FROM AUTHOR]

Published

2023

3. Design, synthesis, and biological screening of a series of 4'-fluoro-benzotriazole-acrylonitrile derivatives as microtubule-destabilising agents (MDAs).

Author

Riu, Federico, Ibba, Roberta, Zoroddu, Stefano, Sestito, Simona, Lai, Michele, Piras, Sandra, Sanna, Luca, Bordoni, Valentina, Bagella, Luigi, and Carta, Antonio

Subjects

BENZOTRIAZOLE derivatives, CELL cycle, HELA cells, CELL analysis, DOXORUBICIN, CELL survival, CONFOCAL microscopy

Abstract

Introduction: Colchicine-binding site inhibitors are some of the most interesting ligands belonging to the wider family of microtubule-destabilising agents. Results: A novel series of 4'-fluoro-substituted ligands (5-13) was synthesised. The antiproliferative activity assays resulted in nM values for the new benzotriazole-acrylonitrile derivatives. Compound 5, the hit compound, showed an evident blockade of HeLa cell cycle in the G2-M phase, but also a pro-apoptotic potential, and an increase of early and late apoptotic cells in HeLa and MCF-7 cell cycle analysis. Confocal microscopy analysis showed a segmented shape and a collapse of the cytoskeleton, as well as a consistent cell shrinkage after administration of 5 at 100 nM. Derivative 5 was also proved to compete with colchicine at colchicine-binding site, lowering its activity against tubulin polymerisation. In addition, co-administration of 5 and doxorubicin in drug-resistant A375 melanoma cell line highlighted a synergic potential in terms of inhibition of cell viability. Discussion: The 4'-fluoro substitution of benzotriazole-acrylonitrile scaffold brought us a step forward in the optimisation process to obtain compound 5 as promising MDA antiproliferative agent at nanomolar concentration. [ABSTRACT FROM AUTHOR]

Published

2022

4. Bromodomain Inhibitor JQ1 Provides Novel Insights and Perspectives in Rhabdomyosarcoma Treatment.

Author

Marchesi, Irene, Fais, Milena, Fiorentino, Francesco Paolo, Bordoni, Valentina, Sanna, Luca, Zoroddu, Stefano, and Bagella, Luigi

Subjects

RHABDOMYOSARCOMA, SARCOMA, MYC proteins, CELL lines, ONE-way analysis of variance

Abstract

Rhabdomyosarcoma (RMS) is the most common type of pediatric soft tissue sarcoma. It is classified into two main subtypes: embryonal (eRMS) and alveolar (aRMS). MYC family proteins are frequently highly expressed in RMS tumors, with the highest levels correlated with poor prognosis. A pharmacological approach to inhibit MYC in cancer cells is represented by Bromodomain and Extra-Terminal motif (BET) protein inhibitors. In this paper, we evaluated the effects of BET inhibitor (+)-JQ1 (JQ1) on the viability of aRMS and eRMS cells. Interestingly, we found that the drug sensitivity of RMS cell lines to JQ1 was directly proportional to the expression of MYC. JQ1 induces G1 arrest in cells with the highest steady-state levels of MYC, whereas apoptosis is associated with MYC downregulation. These findings suggest BET inhibition as an effective strategy for the treatment of RMS alone or in combination with other drugs. [ABSTRACT FROM AUTHOR]

Published

2022

5. Graphene oxide activates B cells with upregulation of granzyme B expression: evidence at the single-cell level for its immune-modulatory properties and anticancer activity.

Author

Orecchioni, Marco, Fusco, Laura, Mall, Raghvendra, Bordoni, Valentina, Fuoco, Claudia, Rinchai, Darawan, Guo, Shi, Sainz, Raquel, Zoccheddu, Martina, Gurcan, Cansu, Yilmazer, Acelya, Zavan, Barbara, Ménard-Moyon, Cécilia, Bianco, Alberto, Hendrickx, Wouter, Bedognetti, Davide, and Delogu, Lucia Gemma

Published

2022

6. Target identification of a novel unsymmetrical 1,3,4‐oxadiazole derivative with antiproliferative properties.

Author

Weidong, Lyu, Sanna, Luca, Bordoni, Valentina, Tiansheng, Zeng, Chengxun, Li, Murineddu, Gabriele, Pinna, Gerard A., Kelvin, David J., and Bagella, Luigi

Subjects

GENES, SMALL molecules, GENE regulatory networks, ANTINEOPLASTIC agents, CELL cycle, TUBULINS

Abstract

1,3,4‐Oxadiazole derivatives are widely used in research on antineoplastic drugs. Recently, we discovered a novel unsymmetrical 1,3,4‐oxadiazole compound with antiproliferative properties called 2j. To further investigate its possible targets and molecular mechanisms, RNA‐seq was performed and the differentially expressed genes (DEGs) were obtained after treatment. Data were analyzed using functional (Gene Ontology term) and pathway (Kyoto Encyclopedia of Genes and Genomes) enrichment of the DEGs. The hub genes were determined by the analysis of protein‐protein interaction networks. The connectivity map (CMap) information provided insight into the model action of antitumor small molecule drugs. Hub genes have been identified through function gene networks using STRING analysis. The small molecular targets obtained by CMap comparison showed that 2j is a tubulin inhibitor and it acts mainly affecting tumor cells through the cell cycle, FoxO signaling pathway, apoptotic, and p53 signaling pathways. The possible targets of 2j could be TUBA1A and TUBA4A. Molecular docking results indicated that 2j interacts at the colchicine‐binding site on tubulin. [ABSTRACT FROM AUTHOR]

Published

2021

7. Toward High‐Dimensional Single‐Cell Analysis of Graphene Oxide Biological Impact: Tracking on Immune Cells by Single‐Cell Mass Cytometry.

Author

Orecchioni, Marco, Bordoni, Valentina, Fuoco, Claudia, Reina, Giacomo, Lin, Hazel, Zoccheddu, Martina, Yilmazer, Acelya, Zavan, Barbara, Cesareni, Gianni, Bedognetti, Davide, Bianco, Alberto, and Delogu, Lucia Gemma

Published

2020

8. Statin therapy is associated with better ambulatory blood pressure control: a propensity score analysis.

Author

Spannella, Francesco, Filipponi, Andrea, Giulietti, Federico, Di Pentima, Chiara, Bordoni, Valentina, and Sarzani, Riccardo

Published

2020

9. Stimulation of bone formation by monocyte-activator functionalized graphene oxide in vivo.

Author

Bordoni, Valentina, Reina, Giacomo, Orecchioni, Marco, Furesi, Giulia, Thiele, Stefanie, Gardin, Chiara, Zavan, Barbara, Cuniberti, Gianaurelio, Bianco, Alberto, Rauner, Martina, and Delogu, Lucia G.

Published

2019

10. Combination Therapy of Inhaled Indacaterol/Glycopyrronium for Chronic Obstructive Pulmonary Disease in the Very Elderly: Is It Safe? An Electrocardiographic Evaluation.

Author

Spannella, Francesco, Giulietti, Federico, Cesari, Valentina, Francioso, Antonio, Cocci, Guido, Landi, Laura, Lombardi, Francesca Elena, Borioni, Elisabetta, Bernardi, Beatrice, Rosettani, Giulia, Bordoni, Valentina, Iacoacci, Corrado, Giordano, Piero, and Sarzani, Riccardo

Subjects

AGING, ANALYSIS of covariance, ANALYSIS of variance, CARDIOVASCULAR diseases, ELECTROCARDIOGRAPHY, KIDNEY diseases, OBSTRUCTIVE lung diseases, RESPIRATORY therapy equipment, COMORBIDITY, DATA analysis software, INDACATEROL, GLYCOPYRROLATE, OLD age, THERAPEUTICS

Abstract

Cardiovascular (CV) comorbidities in patients with chronic obstructive pulmonary disease (COPD) are associated with increased morbidity and mortality, especially in old and very old subjects. The question if long-acting beta-agonist and long-acting muscarinic antagonist could be associated with the increased prevalence of CV-related adverse effects has puzzled, particularly in the past, specialists involved in the management of respiratory diseases. The safety of these compounds has scarcely been tested in patients aged ≥ 65 years with CV comorbidities, since randomized controlled trials rarely include this subpopulation. However, the fixed combination indacaterol/glycopyrronium has shown a favorable CV safety profile in both healthy volunteers and COPD patients. Thus, we aimed to assess the CV safety pro­- file of the fixed combination indacaterol/glycopyrronium 110/50 μg in a series of COPD patients aged ≥ 80 years with several comorbidities. Our results indicate that this combination is safe in the comorbid elderly, since no significant electrocardiographic abnormalities were recorded after the administration of the inhaled therapy. Only rare and nonclinically significant changes in heart rate and corrected QT interval duration were evident, mainly in females and in patients with concomitant impaired kidney function. [ABSTRACT FROM AUTHOR]

Published

2018

11. Clarifying the molecular mechanism of tomentosin-induced antiproliferative and proapoptotic effects in human multiple myeloma via gene expression profile and genetic interaction network analysis.

Author

Virdis, Patrizia, Migheli, Rossana, Bordoni, Valentina, Fiorentino, Francesco Paolo, Sanna, Luca, Marchesi, Irene, Pintore, Giorgio, Galleri, Grazia, Muroni, Maria Rosaria, Bagella, Luigi, Fozza, Claudio, De Miglio, Maria Rosaria, and Podda, Luigi

Published

2021

12. Tomentosin a Sesquiterpene Lactone Induces Antiproliferative and Proapoptotic Effects in Human Burkitt Lymphoma by Deregulation of Anti- and Pro-Apoptotic Genes.

Author

Virdis, Patrizia, Marchesi, Irene, Fiorentino, Francesco Paolo, Migheli, Rossana, Sanna, Luca, Bordoni, Valentina, Pintore, Giorgio, Galleri, Grazia, Muroni, Maria Rosaria, Bagella, Luigi, Fozza, Claudio, De Miglio, Maria Rosaria, and Podda, Luigi

Subjects

BURKITT'S lymphoma, CELL death, GENE expression profiling, GENES, LYMPHOMAS, CELL cycle

Abstract

(1) Tomentosin is the most representative sesquiterpene lactone extracted by I. viscosa. Recently, it has gained particular attention in therapeutic oncologic fields due to its anti-tumor properties. (2) In this study, the potential anticancer features of tomentosin were evaluated on human Burkitt's lymphoma (BL) cell line, treated with increasing tomentosin concentration for cytotoxicity screening. (3) Our data showed that both cell cycle arrest and cell apoptosis induction are responsible of the antiproliferative effects of tomentosin and may end in the inhibition of BL cell viability. Moreover, a microarray gene expression profile was performed to assess differentially expressed genes contributing to tomentosin activity. Seventy-five genes deregulated by tomentosin have been identified. Downregulated genes are enriched in immune-system pathways, and PI3K/AKT and JAK/STAT pathways which favor proliferation and growth processes. Importantly, different deregulated genes identified in tomentosin-treated BL cells are prevalent in molecular pathways known to lead to cellular death, specifically by apoptosis. Tomentosin-treatment in BL cells induces the downregulation of antiapoptotic genes such as BCL2A1 and CDKN1A and upregulation of the proapoptotic PMAIP1 gene. (4) Overall, our results suggest that tomentosin could be taken into consideration as a potential natural product with limited toxicity and relevant anti-tumoral activity in the therapeutic options available to BL patients. [ABSTRACT FROM AUTHOR]

Published

2021

13. Silver Nanoparticles Derived by Artemisia   arborescens Reveal Anticancer and Apoptosis-Inducing Effects.

Author

Bordoni, Valentina, Sanna, Luca, Lyu, Weidong, Avitabile, Elisabetta, Zoroddu, Stefano, Medici, Serenella, Kelvin, David J., and Bagella, Luigi

Subjects

ARTEMISIA, SILVER nanoparticles, CANCER cell growth, CELL death, PLANT extracts, MEDICAL research, CELL cycle

Abstract

The fight against cancer is one of the main challenges for medical research. Recently, nanotechnology has made significant progress, providing possibilities for developing innovative nanomaterials to overcome the common limitations of current therapies. In this context, silver nanoparticles (AgNPs) represent a promising nano-tool able to offer interesting applications for cancer research. Following this path, we combined the silver proprieties with Artemisia arborescens characteristics, producing novel nanoparticles called Artemisia–AgNPs. A "green" synthesis method was performed to produce Artemisia–AgNPs, using Artemisia arborescens extracts. This kind of photosynthesis is an eco-friendly, inexpensive, and fast approach. Moreover, the bioorganic molecules of plant extracts improved the biocompatibility and efficacy of Artemisia–AgNPs. The Artemisia–AgNPs were fully characterized and tested to compare their effects on various cancer cell lines, in particular HeLa and MCF-7. Artemisia–AgNPs treatment showed dose-dependent growth inhibition of cancer cells. Moreover, we evaluated their impact on the cell cycle, observing a G1 arrest mediated by Artemisia–AgNPs treatment. Using a clonogenic assay after treatment, we observed a complete lack of cell colonies, which demonstrated cell reproducibility death. To have a broader overview on gene expression impact, we performed RNA-sequencing, which demonstrated the potential of Artemisia–AgNPs as a suitable candidate tool in cancer research. [ABSTRACT FROM AUTHOR]

Published

2021

14. Single‐Cell Analysis: Toward High‐Dimensional Single‐Cell Analysis of Graphene Oxide Biological Impact: Tracking on Immune Cells by Single‐Cell Mass Cytometry (Small 21/2020).

Author

Orecchioni, Marco, Bordoni, Valentina, Fuoco, Claudia, Reina, Giacomo, Lin, Hazel, Zoccheddu, Martina, Yilmazer, Acelya, Zavan, Barbara, Cesareni, Gianni, Bedognetti, Davide, Bianco, Alberto, and Delogu, Lucia Gemma

Published

2020