Your search keyword '"Valeria Panella"' showing total 8 results

1. Biological effects of magnetic fields emitted by graphene devices, on induced oxidative stress in human cultured cells

Author

Sara Franceschelli, Pierdomenico D’Andrea, Lorenza Speranza, Federica De Cecco, Teresa Paolucci, Valeria Panella, Alfredo Grilli, and Stefano Benedetti

Subjects

oxidative stress, antioxidant enzymes, electromagnetic fields, quantum dots, reactive nitrogen species, Biotechnology, TP248.13-248.65

Abstract

Many recent studies have explored the healing properties of the extremely low-frequency electromagnetic field (ELF-EMF) to utilize electromagnetism for medical purposes. The non-invasiveness of electromagnetic induction makes it valuable for supportive therapy in various degenerative pathologies with increased oxidative stress. To date, no harmful effects have been reported or documented. We designed a small, wearable device which does not require a power source. The device consists of a substrate made of polyethylene terephthalate and an amalgam containing primarily graphene nanocrystals, also known as quantum dots. This device can transmit electromagnetic signals, which could induce biological effects. This study aims to verify the preliminary effects of the electromagnetic emission of the device on leukemic cells in culture. For this purpose, we studied the best-known effects of magnetic fields on biological models, such as cell viability, and the modulations on the main protagonists of cellular oxidative stress.

Published

2024

2. Biological Response of Treatment with Saffron Petal Extract on Cytokine-Induced Oxidative Stress and Inflammation in the Caco-2/Human Leukemia Monocytic Co-Culture Model

Author

Federica De Cecco, Sara Franceschelli, Valeria Panella, Maria Anna Maggi, Silvia Bisti, Arturo Bravo Nuevo, Damiano D’Ardes, Francesco Cipollone, and Lorenza Speranza

Subjects

saffron, saffron petal extract, inflammatory bowel disease, oxidative stress, inflammation, Therapeutics. Pharmacology, RM1-950

Abstract

The pathogenesis of Inflammatory Bowel Disease (IBD) involves complex mechanisms, including immune dysregulation, gut microbiota imbalances, oxidative stress, and defects in the gastrointestinal mucosal barrier. Current treatments for IBD often have significant limitations and adverse side effects, prompting a search for alternative therapeutic strategies. Natural products with anti-inflammatory and antioxidant properties have demonstrated potential for IBD management. There is increasing interest in exploring food industry waste as a source of bioactive molecules with healthcare applications. In this study, a co-culture system of Caco-2 cells and PMA-differentiated THP-1 macrophages was used to simulate the human intestinal microenvironment. Inflammation was induced using TNF-α and IFN-γ, followed by treatment with Saffron Petal Extract (SPE). The results demonstrated that SPE significantly attenuated oxidative stress and inflammation by downregulating the expression of pro-inflammatory mediators such as iNOS, COX-2, IL-1β, and IL-6 via modulation of the NF-κB pathway. Given that NF-κB is a key regulator of macrophage-driven inflammation, our findings support further investigation of SPE as a potential complementary therapeutic agent for IBD treatment.

Published

2024

3. Biological Evaluation of the Osteoinductive Potential of Dry Teeth after Chemical Demineralization Treatment Using the Tooth Transformer Device

Author

Sara Franceschelli, Rosalba Lagioia, Federica De Cecco, Elio Minetti, Andrea Ballini, Valeria Panella, Lorenza Speranza, Alfredo Grilli, and Filiberto Mastrangelo

Subjects

Tooth Transformer, osteoinductivity, Bone Morphogenetic Protein 2, mineralization protein LIM-1, transforming growth factor-β, Microbiology, QR1-502

Abstract

Several studies have already demonstrated the biocompatibility of a tooth as a grafting material in the regeneration of bone tissue, showing its osteoconductive potential, while no studies have verified whether the osteoinductive potential of a tooth remains constant or is altered after its treatment with the Tooth Transformer (TT) device. The aim of the study was to demonstrate that the treatment with the TT device did not alter the osteoinductivity of an extracted tooth that was stored dry. Twelve extracted human teeth were collected from real patients. Caries, tartar and filling materials were removed from each tooth; each tooth was coarsely cut and stored at room temperature (RT) until use. Each sample was shredded, demineralized and disinfected, using the TT device. Protein extraction was carried out for each sample, and Western Blot analysis was performed to test the presence of mineralization protein LIM-1 and transforming growth factor-β. The presence of the human Bone Morphogenetic Protein 2 (BMP-2) and human collagen Type I (COL-I) was found in dry tooth samples processed with the TT device and subjected to Enzyme-Linked Immunosorbent Assay (ELISA) testing. The treatment of chemical demineralization using the TT device does not alter the osteoinductive potential of a dry tooth.

Published

2023

4. Role of glyoxalases in wound healing process: an in vitro study

Author

Fernanda Amicarelli, Maurizio Giuliani, Valeria Cordone, Francesca Lombardi, Paola Palumbo, Carla Tatone, Maria Grazia Cifone, Stefano Falone, Benedetta Cinque, Virginio Bignotti, Giovanna Di Emidio, Silvano Santini, and Valeria Panella

Subjects

reactive oxygen species, keratinocytes, business.industry, glyoxalases, methylglyoxal, RAGE, mitochondria, reactive oxygen species, redox-dependent transcription factors, glutathione, keratinocytes, wound healing, wound healing, Biochemistry, RAGE, Cell biology, mitochondria, Physiology (medical), methylglyoxal, In vitro study, Medicine, glutathione, business, Wound healing, Process (anatomy), glyoxalases, redox-dependent transcription factors

Published

2021

5. Resveratrol effects on SIRT1-SIRT3-SOD2 axis in high-glucose-challenged HUVECs

Author

Stefano Falone, Valeria Cordone, Pierpaolo Aimola, Silvano Santini, Virginio Bignotti, Mahmut Mijit, Fernanda Amicarelli, and Valeria Panella

Subjects

chemistry.chemical_compound, chemistry, SIRT3, Physiology (medical), High glucose, SOD2, Resveratrol, Pharmacology, Biochemistry

Published

2021

6. Repurposing a psychoactive drug for children with cancer: p27Kip1-dependent inhibition of metastatic neuroblastomas by Prozac

Author

Manuela Iezzi, Sandra Bibbò, Alexia Tsakaneli, Paolo Ciufici, Gianluca Sala, Arturo Sala, Alessia Lamolinara, Emily Capone, Stefania Purgato, Valeria Panella, Michele Sallese, Vincenzo De Laurenzi, Giovanni Perini, Cosmo Rossi, Valentina Nieddu, Bibbo' S., Lamolinara A., Capone E., Purgato S., Tsakaneli A., Panella V., Sallese M., Rossi C., Ciufici P., Nieddu V., De Laurenzi V., Iezzi M., Perini G., Sala G., and Sala A.

Subjects

0301 basic medicine, Drug, Cancer Research, media_common.quotation_subject, Disease, Malignancy, Brief Communication, lcsh:RC254-282, Paediatric cancer, 03 medical and health sciences, 0302 clinical medicine, Targeted therapies, In vivo, Neuroblastoma, SKP2, medicine, Molecular Biology, Transcription factor, media_common, CKS1/SKP2/p27kip1, MYCN, CRISPR/CAS9, Prozac, neuroblastoma, genome editing, human cancer, business.industry, Cancer, Oncogenes, medicine.disease, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, 030104 developmental biology, 030220 oncology & carcinogenesis, Cancer research, business

Abstract

The MYC family of transcription factors is a major driver of human cancer and potential therapeutic target. However, no clinically viable drugs have been yet developed that are able to directly tackle MYC oncoproteins. In our laboratory, we are exploring alternative approaches aiming to disturb signalling downstream of MYC. MYCN is frequently activated in neuroblastoma, a paediatric solid malignancy that, in its metastatic form, has a very poor prognosis. An important pathway regulated by MYC is the CKS1/SKP2/p27kip1 axis. In this study, we have repurposed the anti-psychotic drug Prozac to disrupt CKS1/SKP2/p27Kip1 signalling and assess its potential as an anti-neuroblastoma agent in vitro and in vivo. Using DNA editing technology, we show that stabilisation of p27Kip1 operated by Prozac in MYC-activated cells is essential for the anti-neuroblastoma activity of the drug. Furthermore, dosing mice with a concentration of Prozac equivalent to that used in long-term clinical trials in children with psychiatric disorders caused a significant reduction of metastatic disease in two models of high-risk neuroblastoma. The favourable toxicity profile of Prozac suggests that long-term treatments might be implemented in children with MYC/CKS1high neuroblastomas.

Published

2020

7. Proteomic Analysis of Marinesco–Sjogren Syndrome Fibroblasts Indicates Pro-Survival Metabolic Adaptation to SIL1 Loss

Author

Anna Giulia Ruggieri, Maria Concetta Cufaro, Damiana Pieragostino, Beatrice Dufrusine, Elena Restelli, Linda Di Biase, Feliciano Protasi, Luca Federici, Francesca Potenza, Michele Sallese, Roberto Chiesa, Vincenzo De Laurenzi, Antonella Di Campli, Valeria Panella, and Laura Pietrangelo

Subjects

X-Box Binding Protein 1, Eukaryotic Initiation Factor-2, autophagosome, Gene Expression, protein folding, unfolded protein response, BiP, pathway analysis, fibroblast, neurodegenerative disease, Endoplasmic Reticulum, medicine.disease_cause, Loss of Function Mutation, Guanine Nucleotide Exchange Factors, Gene Regulatory Networks, Biology (General), Amino Acids, Child, Spectroscopy, Spinocerebellar Degenerations, Mutation, Chemistry, Translation (biology), General Medicine, Computer Science Applications, Cell biology, medicine.anatomical_structure, QH301-705.5, RNA Splicing, Citric Acid Cycle, Primary Cell Culture, Protein degradation, Article, Catalysis, Inorganic Chemistry, Downregulation and upregulation, Lysosome, medicine, Humans, Physical and Theoretical Chemistry, QD1-999, Molecular Biology, Gene Expression Profiling, Endoplasmic reticulum, Organic Chemistry, Molecular Sequence Annotation, Fibroblasts, Lipid Metabolism, Activating Transcription Factor 4, Gene Ontology, Secretory protein, Proteolysis, Unfolded protein response

Abstract

Marinesco–Sjogren syndrome (MSS) is a rare multisystem pediatric disorder, caused by loss-of-function mutations in the gene encoding the endoplasmic reticulum cochaperone SIL1. SIL1 acts as a nucleotide exchange factor for BiP, which plays a central role in secretory protein folding. SIL1 mutant cells have reduced BiP-assisted protein folding, cannot fulfil their protein needs, and experience chronic activation of the unfolded protein response (UPR). Maladaptive UPR may explain the cerebellar and skeletal muscle degeneration responsible for the ataxia and muscle weakness typical of MSS. However, the cause of other more variable, clinical manifestations, such as mild to severe mental retardation, hypogonadism, short stature, and skeletal deformities, is less clear. To gain insights into the pathogenic mechanisms and/or adaptive responses to SIL1 loss, we carried out cell biological and proteomic investigations in skin fibroblasts derived from a young patient carrying the SIL1 R111X mutation. Despite fibroblasts not being overtly affected in MSS, we found morphological and biochemical changes indicative of UPR activation and altered cell metabolism. All the cell machineries involved in RNA splicing and translation were strongly downregulated, while protein degradation via lysosome-based structures was boosted, consistent with an attempt of the cell to reduce the workload of the endoplasmic reticulum and dispose of misfolded proteins. Cell metabolism was extensively affected as we observed a reduction in lipid synthesis, an increase in beta oxidation, and an enhancement of the tricarboxylic acid cycle, with upregulation of eight of its enzymes. Finally, the catabolic pathways of various amino acids, including valine, leucine, isoleucine, tryptophan, lysine, aspartate, and phenylalanine, were enhanced, while the biosynthetic pathways of arginine, serine, glycine, and cysteine were reduced. These results indicate that, in addition to UPR activation and increased protein degradation, MSS fibroblasts have profound metabolic alterations, which may help them cope with the absence of SIL1.

Published

2021

8. Targeting Vesicular LGALS3BP by an Antibody-Drug Conjugate as Novel Therapeutic Strategy for Neuroblastoma

Author

Vincenzo De Laurenzi, Manuela Iezzi, Fabio Pastorino, Rodolfo Ippoliti, Rossano Lattanzio, Stefano Iacobelli, Enza Piccolo, Valeria Panella, Sara Ponziani, Michele Sallese, Mirco Ponzoni, Cosmo Rossi, Giulia Di Vittorio, Francesco Giansanti, Arturo Sala, Gianluca Sala, Daniela D'Agostino, Valentina Iacobelli, Sandra Bibbò, Alessia Lamolinara, Emily Capone, and Roberta Gentile

Subjects

0301 basic medicine, Cancer Research, Antibody-drug conjugate, Stromal cell, medicine.medical_treatment, lcsh:RC254-282, Article, Targeted therapy, neuroblastoma, 03 medical and health sciences, 0302 clinical medicine, Antibody-Drug Conjugates (ADC)s, LGALS3BP, targeted therapy, Neuroblastoma, Medicine, Therapeutic strategy, Tumor microenvironment, business.industry, Cancer, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Cancer research, business, Conjugate

Abstract

Simple Summary Antibody Drug Conjugates are an emerging class of biopharmaceuticals that have seen an impressive increase of attention in the field of cancer therapy. Here, we describe the therapeutic activity of 1959-sss/DM3, a non-internalizing ADC targeting LGALS3BP, a secreted, extracellular vesicles-associated protein expressed by the majority of human cancers, including neuroblastoma. We show that 1959-sss/DM3 treatment can cure mice with established neuroblastoma tumours in pseudometastatic, orthotopic and Patient Derived Xenograft models. Abstract Neuroblastoma is the most common extra-cranial solid tumor in infants and children, which accounts for approximately 15% of all cancer-related deaths in the pediatric population. New therapeutic modalities are urgently needed. Antibody-Drug Conjugates (ADC)s-based therapy has been proposed as potential strategy to treat this pediatric malignancy. LGALS3BP is a highly glycosylated protein involved in tumor growth and progression. Studies have shown that LGALS3BP is enriched in extracellular vesicles (EV)s derived by most neuroblastoma cells, where it plays a critical role in preparing a favorable tumor microenvironment (TME) through direct cross talk between cancer and stroma cells. Here, we describe the development of a non-internalizing LGALS3BP ADC, named 1959-sss/DM3, which selectively targets LGALS3BP expressing neuroblastoma. 1959-sss/DM3 mediated potent therapeutic activity in different types of neuroblastoma models. Notably, we found that treatments were well tolerated at efficacious doses that were fully curative. These results offer preclinical proof-of-concept for an ADC targeting exosomal LGALS3BP approach for neuroblastomas.

Published

2020