Your search keyword '"Parenti, Rosalba"' showing total 521 results

201. The Projections of the Lateral Reticular Nucleus to the Deep Cerebellar Nuclei. An Experimental Analysis in the Rat

Author

Parenti, Rosalba, primary, Cicirata, Federico, additional, Pantò, Maria Rosita, additional, and Serapide, Maria Francesca, additional

Published

1996

202. The pontocerebellar projection: longitudinal zonal distribution of fibers from discrete regions of the pontine nuclei to vermal and parafloccular cortices in the rat

Author

Serapide, Maria Francesca, primary, Cicirata, Federico, additional, Sotelo, Constantino, additional, Panto´, Maria Rosita, additional, and Parenti, Rosalba, additional

Published

1994

203. Immunohistochemical expression of Wilms’ tumor protein (WT1) in developing human epithelial and mesenchymal tissues

Author

Parenti, Rosalba, Perris, Roberto, Vecchio, Giada Maria, Salvatorelli, Lucia, Torrisi, Antonietta, Gravina, Lucia, and Magro, Gaetano

Subjects

*IMMUNOHISTOCHEMISTRY, *NEPHROBLASTOMA, *MORPHOGENESIS, *EPITHELIAL cells, *MESENCHYMAL stem cells, *GENITOURINARY organs

Abstract

Abstract: The Wilms’ tumor (WT1) gene and its protein product are known to exhibit a dynamic expression profile during development and in the adult organism. Apart from a nuclear expression observed in the urogenital system, its precise localization in other developing human tissues is still largely unknown. Accordingly, the aim of this study was to investigate immunohistochemically the temporal and spatial distribution of WT1 in epithelial and mesenchymal developing human tissues from gestational weeks 7–24. For this purpose we used antibodies against the N-terminal of WT1. As might be expected, WT1 nuclear expression was observed in mesonephric/metanephric glomeruli, metanephric blastema, celom-derived membranes (pleura, peritoneum, serosal surfaces) and sex cords. With regard to mesenchymal tissues, a similar nuclear staining was also obtained in the mesenchyme surrounding Müllerian and Wolffian ducts, as well as in the submesothelial mesenchymal cells of all celomatic-derived membranes. The most striking finding was the detection of strong WT1 cytoplasmic immunostaining in developing skeletal and cardiac muscle cells and endothelial cells. The tissue-specific expression of WT1, together with its different nuclear/cytoplasmic localization, both suggest that WT1 protein may have shuttling properties, acting as a protein with complex regulator activity in transcriptional/translation processes during human ontogenesis. The reported cytoplasmic expression of WT1 in human rhabdomyosarcomas and in many vascular tumors strongly suggests an oncofetal expression of this protein. Although not specific, WT1 cytoplasmic expression can be used as a marker of skeletal muscle and endothelial differentiation in an appropriate morphological context. [Copyright &y& Elsevier]

Published

2013

204. Neuromuscular Plasticity in a Mouse Neurotoxic Model of Spinal Motoneuronal Loss.

Author

Parenti, Rosalba, Vecchio, Michele, Gulisano, Massimo, Leanza, Giampiero, Gulino, Rosario, Vicario, Nunzio, Giunta, Maria A. S., Spoto, Graziana, and Calabrese, Giovanna

Subjects

*NEUROMUSCULAR diseases, *NEURAL stem cells, *NEUROTOXIC agents, *AMYOTROPHIC lateral sclerosis, *EXCITATORY amino acid agents

Abstract

Despite the relevant research efforts, the causes of amyotrophic lateral sclerosis (ALS) are still unknown and no effective cure is available. Many authors suggest that ALS is a multi-system disease caused by a network failure instead of a cell-autonomous pathology restricted to motoneurons. Although motoneuronal loss is the critical hallmark of ALS given their specific vulnerability, other cell populations, including muscle and glial cells, are involved in disease onset and progression, but unraveling their specific role and crosstalk requires further investigation. In particular, little is known about the plastic changes of the degenerating motor system. These spontaneous compensatory processes are unable to halt the disease progression, but their elucidation and possible use as a therapeutic target represents an important aim of ALS research. Genetic animal models of disease represent useful tools to validate proven hypotheses or to test potential therapies, and the conception of novel hypotheses about ALS causes or the study of pathogenic mechanisms may be advantaged by the use of relatively simple in vivo models recapitulating specific aspects of the disease, thus avoiding the inclusion of too many confounding factors in an experimental setting. Here, we used a neurotoxic model of spinal motoneuron depletion induced by injection of cholera toxin-B saporin in the gastrocnemius muscle to investigate the possible occurrence of compensatory changes in both the muscle and spinal cord. The results showed that, following the lesion, the skeletal muscle became atrophic and displayed electromyographic activity similar to that observed in ALS patients. Moreover, the changes in muscle fiber morphology were different from that observed in ALS models, thus suggesting that some muscular effects of disease may be primary effects instead of being simply caused by denervation. Notably, we found plastic changes in the surviving motoneurons that can produce a functional restoration probably similar to the compensatory changes occurring in disease. These changes could be at least partially driven by glutamatergic signaling, and astrocytes contacting the surviving motoneurons may support this process. [ABSTRACT FROM AUTHOR]

Published

2019

205. Ixazomib Modulates Bone Remodeling and Actives Sonic Hedgehog Pathways

Author

Tibullo, Daniele, Longo, Anna, Romano, Alessandra, Barbato, Alessandro, Giallongo, Cesarina, Di Rosa, Michelino, Anfuso, Carmelina Daniela, Lupo, Gabriella, Conticello, Concetta, Vicario, Nunzio, Gulino, Rosario, Parenti, Rosalba, Palumbo, Giuseppe A., Li Volti, Giovanni, and Di Raimondo, Francesco

Abstract

Multiple myeloma (MM) is a clonal B-cell malignancy characterized by an accumulation of clonal plasma cells (PC) in the bone marrow (BM) leading to bone destruction and BM failure. Osteolytic bone disease is a common manifestation of MM that leads to progressive skeleton destruction and is the most severe cause of morbidity in MM patients. Pathogenetic mechanisms of MM bone destruction are closely linked to MM PC and osteoclasts (OCs) hyperactivity coupled with defective osteoblast (OB) function unable to counteract bone resorption. We recently demonstrated that the proteasome inhibitor (PI) Bortezomib, commonly used to treat MM, was capable to inhibit osteoclastic differentiation modulating chitinase family genes. In this work we investigated the effect of Ixazomib (IXA), a third generation PI, on osteoclastogenesis and osteogenic differentiation. Human monocytes were differentiated in OCs in presence of OC medium (supplemented with RANKL and M-CSF), and/or 10nM IXA. We observed that IXA was able to inhibit the expression of different OCs markers such as RANK, CTSK, TRAP, and MMP9 when added in OC medium in respect to OC medium alone (p<0.001). In addition, IXA treatment reduced CHIT1 enzymatic activity and downregulated CHIT1 and YKL40 (both mRNA and proteins). Immunofluorescence evaluation confirmed that IXA inhibited the mature OCs formation with five or more nuclei. Moreover, IXA was able to stimulate osteogenic differentiation of human mesenchymal stromal cells (MSCs). After 21 days of treatment, IXA alone or added to osteogenic medium increased the osteogenic markers genes (BMP2, RUNX2, Osteocalcin and Osteonectin). Immunofluorescence assay confirmed the increase of BMP2 after IXA treatment alone or in combination with osteogenic medium. Sonic Hedgehog (Shh) is one of the intricate signal transduction mechanisms that govern the precisely regulated developmental processes of multicellular organisms. Its signaling cascade plays an important role in bone homeostasis, and reducing Shh pathway protects against age-related bone loss. In this work we observed that IXA, but not Bortezomib, was able to bind the Smoothened (Smo) receptor which is the transducing molecule of the extracellular signal of Shh. Interestingly, using cellular thermal shift assay (CETSA), we demonstrated that IXA was able to bind directly Smo receptor activating the Shh cascade that leads to the nuclear translocation of Gli1 an effector of this pathway. Inhibiting Shh signaling by using an inhibitor of Smo activation (Cyclopamine), IXA-activated ostegenic differentiation-related genes were down-regulated. In conclusion, our data demonstrated that IXA regulates bone remodeling decreasing osteoclastogenesis and promoting osteogenic differentiation and therefore represents a good therapeutic option to improve the complex pathological condition of patients with MM.

Published

2019

206. GAP JUNCTIONS, HEMICHANNELS AND CONNEXINS AND THEIR ROLE IN THE NEUROVASCULAR UNIT.

Author

Vicario, Nunzio, Volti, Giovanni Li, and Parenti, Rosalba

Subjects

*CONNEXINS, *CELL populations, *NEUROGLIA, *CENTRAL nervous system, *CELL communication

Abstract

Recent advances have come to suggest that connexins (Cxs), the core gap junction (GJs) and hemichannels (HCs) composing proteins, play a crucial role in neurodegenerative and neuroprotective conditions. GJs and HCs syncytia in the complex neuroglial network allows glial cells to support and even modulate neuronal function in both physiological and pathological conditions. In this review we aim at reviewing the current knowledge in the context of neuroglial crosstalk and neurovascular units (NVU) and at delivering up-to-date insights on cell populations interplay in physiological and pathological central nervous system (CNS) conditions. [ABSTRACT FROM AUTHOR]

Published

2020

207. Digital Pathology: A Comprehensive Review of Open-Source Histological Segmentation Software.

Author

Pavone, Anna Maria, Giannone, Antonino Giulio, Cabibi, Daniela, D'Aprile, Simona, Denaro, Simona, Salvaggio, Giuseppe, Parenti, Rosalba, Yezzi, Anthony, and Comelli, Albert

Subjects

*PATHOLOGY, *DIGITAL technology, *HISTOLOGY, *ARTIFICIAL intelligence, *IMAGE segmentation

Abstract

In the era of digitalization, the biomedical sector has been affected by the spread of artificial intelligence. In recent years, the possibility of using deep and machine learning methods for clinical diagnostic and therapeutic interventions has been emerging as an essential resource for biomedical imaging. Digital pathology represents innovation in a clinical world that looks for faster and better-performing diagnostic methods, without losing the accuracy of current human-guided analyses. Indeed, artificial intelligence has played a key role in a wide variety of applications that require the analysis of a massive amount of data, including segmentation processes in medical imaging. In this context, artificial intelligence enables the improvement of image segmentation methods, moving towards the development of fully automated systems of analysis able to support pathologists in decision-making procedures. The aim of this review is to aid biologists and clinicians in discovering the most common segmentation open-source tools, including ImageJ (v. 1.54), CellProfiler (v. 4.2.5), Ilastik (v. 1.3.3) and QuPath (v. 0.4.3), along with their customized implementations. Additionally, the tools' role in the histological imaging field is explored further, suggesting potential application workflows. In conclusion, this review encompasses an examination of the most commonly segmented tissues and their analysis through open-source deep and machine learning tools. [ABSTRACT FROM AUTHOR]

Published

2024

208. Anaplastic thyroid cancer cells reduce CD71 levels to increase iron overload tolerance.

Author

D'Aprile, Simona, Denaro, Simona, Pavone, Anna Maria, Giallongo, Sebastiano, Giallongo, Cesarina, Distefano, Alfio, Salvatorelli, Lucia, Torrisi, Filippo, Giuffrida, Raffaella, Forte, Stefano, Tibullo, Daniele, Li Volti, Giovanni, Magro, Gaetano, Vicario, Nunzio, and Parenti, Rosalba

Subjects

*IRON overload, *ANAPLASTIC thyroid cancer, *THYROID cancer, *CANCER cells, *REACTIVE oxygen species, *CELL lines, *IRON

Abstract

Background: Follicular thyroid cancer (FTC) is a prevalent form of differentiated thyroid cancer, whereas anaplastic thyroid cancer (ATC) represents a rare, fast-growing, undifferentiated, and highly aggressive tumor, posing significant challenges for eradication. Ferroptosis, an iron-dependent cell death mechanism driven by the excessive production of reactive oxygen species and subsequent lipid peroxidation, emerges as a promising therapeutic strategy for cancer. It has been observed that many cancer cells exhibit sensitivity to ferroptosis, while some other histotypes appear to be resistant, by counteracting the metabolic changes and oxidative stress induced by iron overload. Methods: Here we used human biopsies and in vitro approaches to analyse the effects of iron-dependent cell death. We assessed cell proliferation and viability through MTT turnover, clonogenic assays, and cytofluorimetric-assisted analysis. Lipid peroxidation assay and western blot were used to analyse molecular mechanisms underlying ferroptosis modulation. Two distinct thyroid cancer cell lines, FTC-133 (follicular) and 8505C (anaplastic), were utilized. These cell lines were exposed to ferroptosis inducers, Erastin and RSL3, while simulating an iron overload condition using ferric ammonium citrate. Results: Our evidence suggests that FTC-133 cell line, exposed to iron overload, reduced their viability and showed increased ferroptosis. In contrast, the 8505C cell line seems to better tolerate ferroptosis, responding by modulating CD71, which is involved in iron internalization and seems to have a role in resistance to iron overload and consequently in maintaining cell viability. Conclusions: The differential tolerance to ferroptosis observed in our study may hold clinical implications, particularly in addressing the unmet therapeutic needs associated with ATC treatment, where resistance to ferroptosis appears more pronounced compared to FTC. [ABSTRACT FROM AUTHOR]

Published

2023

209. Lactate Rewrites the Metabolic Reprogramming of Uveal Melanoma Cells and Induces Quiescence Phenotype.

Author

Longhitano, Lucia, Giallongo, Sebastiano, Orlando, Laura, Broggi, Giuseppe, Longo, Antonio, Russo, Andrea, Caltabiano, Rosario, Giallongo, Cesarina, Barbagallo, Ignazio, Di Rosa, Michelino, Giuffrida, Rosario, Parenti, Rosalba, Li Volti, Giovanni, Vicario, Nunzio, and Tibullo, Daniele

Subjects

*LACTATES, *LACTATION, *PHENOTYPES, *CELL metabolism, *OXIDATIVE phosphorylation, *MELANOMA

Abstract

Uveal melanoma (UM), the most common primary intraocular cancer in adults, is among the tumors with poorer prognosis. Recently, the role of the oncometabolite lactate has become attractive due to its role as hydroxycarboxylic acid receptor 1 (HCAR1) activator, as an epigenetic modulator inducing lysine residues lactylation and, of course, as a glycolysis end-product, bridging the gap between glycolysis and oxidative phosphorylation. The aim of the present study was to dissect in UM cell line (92.1) the role of lactate as either a metabolite or a signaling molecule, using the known modulators of HCAR1 and of lactate transporters. Our results show that lactate (20 mM) resulted in a significant decrease in cell proliferation and migration, acting and switching cell metabolism toward oxidative phosphorylation. These results were coupled with increased euchromatin content and quiescence in UM cells. We further showed, in a clinical setting, that an increase in lactate transporters MCT4 and HCAR1 is associated with a spindle-shape histological type in UM. In conclusion, our results suggest that lactate metabolism may serve as a prognostic marker of UM progression and may be exploited as a potential therapeutic target. [ABSTRACT FROM AUTHOR]

Published

2023

210. Lactate modulates microglia polarization via IGFBP6 expression and remodels tumor microenvironment in glioblastoma.

Author

Longhitano, Lucia, Vicario, Nunzio, Forte, Stefano, Giallongo, Cesarina, Broggi, Giuseppe, Caltabiano, Rosario, Barbagallo, Giuseppe Maria Vincenzo, Altieri, Roberto, Raciti, Giuseppina, Di Rosa, Michelino, Caruso, Massimo, Parenti, Rosalba, Liso, Arcangelo, Busi, Federica, Lolicato, Marco, Mione, Maria Caterina, Li Volti, Giovanni, and Tibullo, Daniele

Subjects

*INSULIN-like growth factor-binding proteins, *BLOOD lactate, *GENE expression, *TUMOR microenvironment, *MICROGLIA, *NITRIC-oxide synthases

Abstract

Lactic acidosis has been reported in solid tumor microenvironment (TME) including glioblastoma (GBM). In TME, several signaling molecules, growth factors and metabolites have been identified to induce resistance to chemotherapy and to sustain immune escape. In the early phases of the disease, microglia infiltrates TME, contributing to tumorigenesis rather than counteracting its growth. Insulin-like Growth Factor Binding Protein 6 (IGFBP6) is expressed during tumor development, and it is involved in migration, immune-escape and inflammation, thus providing an attractive target for GBM therapy. Here, we aimed at investigating the crosstalk between lactate metabolism and IGFBP6 in TME and GBM progression. Our results show that microglia exposed to lactate or IGFBP6 significantly increased the Monocarboxylate transporter 1 (MCT1) expression together with genes involved in mitochondrial metabolism. We, also, observed an increase in the M2 markers and a reduction of inducible nitric oxide synthase (iNOS) levels, suggesting a role of lactate/IGFBP6 metabolism in immune-escape activation. GBM cells exposed to lactate also showed increased levels of IGFBP6 and vice-versa. Such a phenomenon was coupled with a IGFBP6-mediated sonic hedgehog (SHH) ignaling increase. We, finally, tested our hypothesis in a GBM zebrafish animal model, where we observed an increase in microglia cells and igfbp6 gene expression after lactate exposure. Our results were confirmed by the analysis of human transcriptomes datasets and immunohistochemical assay from human GBM biopsies, suggesting the existence of a lactate/IGFBP6 crosstalk in microglial cells, so that IGFBP6 expression is regulated by lactate production in GBM cells and in turn modulates microglia polarization. [ABSTRACT FROM AUTHOR]

Published

2023

211. The Role of Epigenetics in Neuroinflammatory-Driven Diseases.

Author

Giallongo, Sebastiano, Longhitano, Lucia, Denaro, Simona, D'Aprile, Simona, Torrisi, Filippo, La Spina, Enrico, Giallongo, Cesarina, Mannino, Giuliana, Lo Furno, Debora, Zappalà, Agata, Giuffrida, Rosario, Parenti, Rosalba, Li Volti, Giovanni, Tibullo, Daniele, and Vicario, Nunzio

Subjects

*ALZHEIMER'S disease, *PERIPHERAL nervous system, *GENE expression, *PARKINSON'S disease, *EPIGENETICS

Abstract

Neurodegenerative disorders are characterized by the progressive loss of central and/or peripheral nervous system neurons. Within this context, neuroinflammation comes up as one of the main factors linked to neurodegeneration progression. In fact, neuroinflammation has been recognized as an outstanding factor for Alzheimer's disease (AD), amyotrophic lateral sclerosis (ALS), Parkinson's disease (PD), and multiple sclerosis (MS). Interestingly, neuroinflammatory diseases are characterized by dramatic changes in the epigenetic profile, which might provide novel prognostic and therapeutic factors towards neuroinflammatory treatment. Deep changes in DNA and histone methylation, along with histone acetylation and altered non-coding RNA expression, have been reported at the onset of inflammatory diseases. The aim of this work is to review the current knowledge on this field. [ABSTRACT FROM AUTHOR]

Published

2022

212. Mu and Delta Opioid Receptor Targeting Reduces Connexin 43-Based Heterocellular Coupling during Neuropathic Pain.

Author

Vicario, Nunzio, Denaro, Simona, Turnaturi, Rita, Longhitano, Lucia, Spitale, Federica Maria, Spoto, Salvatore, Marrazzo, Agostino, Zappalà, Agata, Tibullo, Daniele, Li Volti, Giovanni, Chiechio, Santina, Pasquinucci, Lorella, Parenti, Rosalba, and Parenti, Carmela

Abstract

Chronic neuropathic pain emerges from either central or peripheral lesions inducing spontaneous or amplified responses to non-noxious stimuli. Despite different pharmacological approaches to treat such a chronic disease, neuropathic pain still represents an unmet clinical need, due to long-term therapeutic regimens and severe side effects that limit application of currently available drugs. A critical phenomenon involved in central sensitization is the exchange of signalling molecules and cytokines, between glia and neurons, driving the chronicization process. Herein, using a chronic constriction injury (CCI) model of neuropathic pain, we evaluated the efficacy of the mu (M-) and delta (D-) opioid receptor (-OR) targeting agent LP2 in modulating connexin-based heterocellular coupling and cytokine levels. We found that long-term efficacy of LP2 is consequent to MOR-DOR targeting resulting in the reduction of CCI-induced astrocyte-to-microglia heterocellular coupling mediated by connexin 43. We also found that single targeting of DOR reduces TNF and IL-6 levels in the chronic phase of the disease, but the peripheral and central discharge as the primary source of excitotoxic stimulation in the spinal cord requires a simultaneous MOR-DOR targeting to reduce CCI-induced neuropathic pain. [ABSTRACT FROM AUTHOR]

Published

2022

213. Adult stem cell niches for tissue homeostasis.

Author

Mannino, Giuliana, Russo, Cristina, Maugeri, Grazia, Musumeci, Giuseppe, Vicario, Nunzio, Tibullo, Daniele, Giuffrida, Rosario, Parenti, Rosalba, and Lo Furno, Debora

Subjects

*STEM cell niches, *SMALL intestine, *TISSUE physiology, *NERVE tissue, *EXTRACELLULAR matrix, *CELL proliferation

Abstract

Adult stem cells are fundamental to maintain tissue homeostasis, growth, and regeneration. They reside in specialized environments called niches. Following activating signals, they proliferate and differentiate into functional cells that are able to preserve tissue physiology, either to guarantee normal turnover or to counteract tissue damage caused by injury or disease. Multiple interactions occur within the niche between stem cell‐intrinsic factors, supporting cells, the extracellular matrix, and signaling pathways. Altogether, these interactions govern cell fate, preserving the stem cell pool, and regulating stem cell proliferation and differentiation. Based on their response to body needs, tissues can be largely classified into three main categories: tissues that even in normal conditions are characterized by an impressive turnover to replace rapidly exhausting cells (blood, epidermis, or intestinal epithelium); tissues that normally require only a basal cell replacement, though able to efficiently respond to increased tissue needs, injury, or disease (skeletal muscle); tissues that are equipped with less powerful stem cell niches, whose repairing ability is not able to overcome severe damage (heart or nervous tissue). The purpose of this review is to describe the main characteristics of stem cell niches in these different tissues, highlighting the various components influencing stem cell activity. Although much has been done, more work is needed to further increase our knowledge of niche interactions. This would be important not only to shed light on this fundamental chapter of human physiology but also to help the development of cell‐based strategies for clinical therapeutic applications, especially when other approaches fail. [ABSTRACT FROM AUTHOR]

Published

2022

214. Intercellular communication and ion channels in neuropathic pain chronicization.

Author

Vicario, Nunzio, Turnaturi, Rita, Spitale, Federica Maria, Torrisi, Filippo, Zappalà, Agata, Gulino, Rosario, Pasquinucci, Lorella, Chiechio, Santina, Parenti, Carmela, and Parenti, Rosalba

Subjects

*CELL communication, *ION channels, *PERIPHERAL nervous system, *POTASSIUM channels, *PATHOLOGY, *NEUROVASCULAR diseases

Abstract

Background: Neuropathic pain is caused by primary lesion or dysfunction of either peripheral or central nervous system. Due to its complex pathogenesis, often related to a number of comorbidities, such as cancer, neurodegenerative and neurovascular diseases, neuropathic pain still represents an unmet clinical need, lacking long-term effective treatment and complex case-by-case approach. Aim and methods: We analyzed the recent literature on the role of selective voltage-sensitive sodium, calcium and potassium permeable channels and non-selective gap junctions (GJs) and hemichannels (HCs) in establishing and maintaining chronic neuropathic conditions. We finally focussed our review on the role of extracellular microenvironment modifications induced by resident glial cells and on the recent advances in cell-to-cell and cell-to-extracellular environment communication in chronic neuropathies. Conclusion: In this review, we provide an update on the current knowledge of neuropathy chronicization processes with a focus on both neuronal and glial ion channels, as well as on channel-mediated intercellular communication. [ABSTRACT FROM AUTHOR]

Published

2020

215. Evaluation of proton beam radiation-induced skin injury in a murine model using a clinical SOBP.

Author

Pisciotta, Pietro, Costantino, Angelita, Cammarata, Francesco Paolo, Torrisi, Filippo, Calabrese, Giovanna, Marchese, Valentina, Cirrone, Giuseppe Antonio Pablo, Petringa, Giada, Forte, Giusi Irma, Minafra, Luigi, Bravatà, Valentina, Gulisano, Massimo, Scopelliti, Fabrizio, Tommasino, Francesco, Scifoni, Emanuele, Cuttone, Giacomo, Ippolito, Massimo, Parenti, Rosalba, and Russo, Giorgio

Subjects

*SKIN injuries, *PROTON beams, *SPINAL cord, *RADIATION doses

Abstract

The purpose of this paper is to characterize the skin deterministic damage due to the effect of proton beam irradiation in mice occurred during a long-term observational experiment. This study was initially defined to evaluate the insurgence of myelopathy irradiating spinal cords with the distal part of a Spread-out Bragg peak (SOBP). To the best of our knowledge, no study has been conducted highlighting high grades of skin injury at the dose used in this paper. Nevertheless these effects occurred. In this regard, the experimental evidence of significant insurgence of skin injury induced by protons using a SOBP configuration will be shown. Skin damages were classified into six scores (from 0 to 5) according to the severity of the injuries and correlated to ED50 (i.e. the radiation dose at which 50% of animals show a specific score) at 40 days post-irradiation (d.p.i.). The effects of radiation on the overall animal wellbeing have been also monitored and the severity of radiation-induced skin injuries was observed and quantified up to 40 d.p.i. [ABSTRACT FROM AUTHOR]

Published

2020

216. Compensatory changes in degenerating spinal motoneurons sustain functional sparing in the SOD1‐G93A mouse model of amyotrophic lateral sclerosis.

Author

Giusto, Elena, Codrich, Marta, Leo, Gioacchino, Francardo, Veronica, Coradazzi, Marino, Parenti, Rosalba, Gulisano, Massimo, Vicario, Nunzio, Gulino, Rosario, and Leanza, Giampiero

Abstract

Plastic changes have been reported in the SOD1‐G93A mouse model of amyotrophic lateral sclerosis, a disorder characterized by progressive motoneuronal loss; however, whether these changes related with the onset and development of motor impairments is still unclear. Here, the functional and anatomical changes taking place in SOD1‐G93A mice and their time course were investigated during ongoing motoneuronal degeneration. Starting from about 4 postnatal weeks, SOD1‐G93A and wild‐type (WT) mice were evaluated in the rotarod test, to be sacrificed at about 12–13 or 19 weeks of age, and their lumbar spinal cords were processed for histo‐ and immunohistochemistry. Compared to age‐matched WT controls, 12 weeks‐old SOD1‐G93A mice exhibited relatively mild or no motor impairments in the rotarod test, in spite of a dramatic (≈60%, as estimated by stereology) loss of choline acetyl‐transferase (ChAT)‐immunoreactive motoneurons which remained virtually unchanged in SOD1‐G93A mice surviving up to 19 weeks. Notably, the functional sparing in SOD1‐G93A mice at 12 weeks was paralleled by a marked ≈50% increase in motoneuron volume and a near‐normal density of acetylcholinesterase‐positive process arborization, which was significantly increased when analyzed as ratio to the decreased number of ChAT‐positive motoneurons. By contrast, at 19 weeks, when motor deficits had become dramatically evident, both measures were found reverted to about 50–60% of control values. Thus, at specific stages during the progression of the disease, robust compensatory events take place in surviving motoneurons of SOD1‐G93A mice, which sustain motor performance, and whose full understanding may highlight a valuable therapeutic opportunity window. [ABSTRACT FROM AUTHOR]

Published

2020

217. An Advanced, Silicon-Based Substrate for Sensitive Nucleic Acids Detection.

Author

Petralia, Salvatore, Vicario, Nunzio, Calabrese, Giovanna, Parenti, Rosalba, and Conoci, Sabrina

Abstract

Surface substrate and chemical functionalization are crucial aspects for the fabrication of the sensitive biosensor based on microarray technology. In this paper, an advanced, silicon-based substrate (A-MA) allowing enhancement of optical signal for microarray application is described. The substrate consists in a multilayer of Si/Al/SiO₂ layers. The optical signal enhancement is reached by a combination of the mirror effect of Al film and the SiO₂ thickness around 830 nm, which is able to reach the maximum of interference for the emission wavelength of the Cy5 fluorescent label. Moreover, SiO₂ layer is suitable for the immobilization of single-strand DNA through standard silane chemistry, and probe densities of about 2000 F/um² are reached. The microarray is investigated in the detection of HBV (Hepatitis B Virus) pathogen with analytical samples, resulting in a dynamic linear range of 0.05⁻0.5 nM, a sensitivity of about 18000 a.u. nM-1, and a Limit of Detection in the range of 0.031⁻0.043 Nm as a function of the capture probe sequence. [ABSTRACT FROM AUTHOR]

Published

2018

218. Benzomorphan skeleton, a versatile scaffold for different targets: A comprehensive review.

Author

Turnaturi, Rita, Montenegro, Lucia, Marrazzo, Agostino, Parenti, Rosalba, Pasquinucci, Lorella, and Parenti, Carmela

Subjects

*BENZOMORPHANS, *PHARMACEUTICAL chemistry, *STEREOCHEMISTRY, *OPIOID analgesics, *HYDROXYL group, *SYNUCLEINS, *SODIUM channels

Abstract

Despite the fact that the benzomorphan skeleton has mainly been employed in medicinal chemistry for the development of opioid analgesics, it is a versatile structure. Its stereochemistry, as well as opportune modifications at the phenolic hydroxyl group and at the basic nitrogen, play a pivotal role addressing the benzomorphan-based compounds to a specific target. In this review, we describe the structure activity-relationships (SARs) of benzomorphan-based compounds acting at sigma 1 receptor (σ1R), sigma 2 receptor (σ2R), voltage-dependent sodium channel, N-Methyl- d -Aspartate (NMDA) receptor-channel complex and other targets. Collectively, the SARs data have highlighted that the benzomorphan nucleus could be regarded as a useful template for the synthesis of drug candidates for different targets. [ABSTRACT FROM AUTHOR]

Published

2018

219. Development of novel LP1-based analogues with enhanced delta opioid receptor profile.

Author

Pasquinucci, Lorella, Turnaturi, Rita, Prezzavento, Orazio, Arena, Emanuela, Aricò, Giuseppina, Georgoussi, Zafiroula, Parenti, Rosalba, Cantarella, Giuseppina, and Parenti, Carmela

Subjects

*GLUCAGON-like peptide-1 receptor, *PAIN management, *DRUG antagonism, *OPIOID receptors, *ANALGESIA, *DRUG administration

Abstract

Pain relief achieved by co-administration of drugs acting at different targets is more effective than that obtained with conventional MOR selective agonists usually associated to relevant side effects. It has been demonstrated that simultaneously targeting different opioid receptors is a more effective therapeutic strategy. Giving the promising role for DOR in pain management, novel LP1-based analogues with different N -substituents were designed and synthesized with the aim to improve DOR profile. For this purpose, we maintained the phenyl ring in the N -substituent of 6,7-benzomorphan scaffold linked to an ethyl spacer bearing a hydroxyl/methyl or methoxyl group at carbon 2 or including it in a 1,4-benzodioxane ring. LP1 analogues were tested by competition binding assays. Compounds 6 (K i MOR = 2.47 nM, K i DOR = 9.6 nM), 7 (K i MOR = 0.5 nM and K i DOR = 0.8 nM) and 9 (K i MOR = 1.08 nM, K i DOR = 6.6 nM) retained MOR affinity but displayed an improved DOR binding capacity as compared to LP1 (K i MOR = 0.83 nM, K i DOR = 29.1 nM). Moreover, GPI and MVD functional assays indicated that compounds 6 (IC 50 = 49.2 and IC 50 = 10.8 nM), 7 (IC 50 = 9.9 and IC 50 = 11.8 nM) and 9 (IC 50 = 21.5 and IC 50 = 4.4 nM) showed a MOR/DOR agonist profile, unlike LP1 that was a MOR agonist/DOR antagonist (IC 50 = 1.9 and IC 50 = 1240 nM). Measurements of their antinociceptive effect was evaluated by mice radiant tail flick test displaying for compounds 6 , 7 and 9 ED 50 values of 1.3, 1.0 and 0.9 mg/kg, i.p., respectively. Moreover, the antinociceptive effect of compound 9 was longer lasting with respect to LP1. In conclusion the N -substituent nature of compounds 6 , 7 and 9 shifts the DOR profile of LP1 from antagonism to agonism. [ABSTRACT FROM AUTHOR]

Published

2017

220. Engineered cartilage regeneration from adipose tissue derived-mesenchymal stem cells: A morphomolecular study on osteoblast, chondrocyte and apoptosis evaluation.

Author

Szychlinska, Marta Anna, Castrogiovanni, Paola, Nsir, Houda, Di Rosa, Michelino, Guglielmino, Claudia, Parenti, Rosalba, Calabrese, Giovanna, Pricoco, Elisabetta, Salvatorelli, Lucia, Magro, Gaetano, Imbesi, Rosa, Mobasheri, Ali, and Musumeci, Giuseppe

Subjects

*MESENCHYMAL stem cells, *OSTEOARTHRITIS, *APOPTOSIS, *CARTILAGE cells, *OSTEOCALCIN

Abstract

The poor self-repair capacity of cartilage tissue in degenerative conditions, such as osteoarthritis (OA), has prompted the development of a variety of therapeutic approaches, such as cellular therapies and tissue engineering based on the use of mesenchymal stem cells (MSCs). The aim of this study is to demonstrate, for the first time, that the chondrocytes differentiated from rat adipose tissue derived-MSCs (AMSCs), are able to constitute a morphologically and biochemically healthy hyaline cartilage after 6 weeks of culture on a Collagen Cell Carrier (CCC) scaffold. In this study we evaluated the expression of some osteoblasts (Runt-related transcription factor 2 (RUNX2) and osteocalcin), chondrocytes (collagen I, II and lubricin) and apoptosis (caspase-3) biomarkers in undifferentiated AMSCs, differentiated AMSCs in chondrocytes cultured in monolayer and AMSCs-derived chondrocytes seeded on CCC scaffolds, by different techniques such as immunohistochemistry, ELISA, Western blot and gene expression analyses. Our results showed the increased expression of collagen II and lubricin in AMSCs-derived chondrocytes cultured on CCC scaffolds, whereas the expression of collagen I, RUNX2, osteocalcin and caspase-3 resulted decreased, when compared to the controls. In conclusion, this innovative basic study could be a possible key for future therapeutic strategies for articular cartilage restoration through the use of CCC scaffolds, to reduce the morbidity from acute cartilage injuries and degenerative joint diseases. [ABSTRACT FROM AUTHOR]

Published

2017

221. A New Preclinical Decision Support System Based on PET Radiomics: A Preliminary Study on the Evaluation of an Innovative 64Cu-Labeled Chelator in Mouse Models

Author

Viviana Benfante, Alessandro Stefano, Albert Comelli, Paolo Giaccone, Francesco Paolo Cammarata, Selene Richiusa, Fabrizio Scopelliti, Marco Pometti, Milene Ficarra, Sebastiano Cosentino, Marcello Lunardon, Francesca Mastrotto, Alberto Andrighetto, Antonino Tuttolomondo, Rosalba Parenti, Massimo Ippolito, Giorgio Russo, Benfante, Viviana, Stefano, Alessandro, Comelli, Albert, Giaccone, Paolo, Cammarata, Francesco Paolo, Richiusa, Selene, Scopelliti, Fabrizio, Pometti, Marco, Ficarra, Milene, Cosentino, Sebastiano, Lunardon, Marcello, Mastrotto, Francesca, Andrighetto, Alberto, Tuttolomondo, Antonino, Parenti, Rosalba, Ippolito, Massimo, and Russo, Giorgio

Subjects

Settore ING-INF/05 - Sistemi Di Elaborazione Delle Informazioni, radiomics, micro-PET/CT, mouse imaging, atlas, 64Cu-labeled chelator, Cu-labeled chelator, Computer Graphics and Computer-Aided Design, atla, Radiology, Nuclear Medicine and imaging, Computer Vision and Pattern Recognition, Electrical and Electronic Engineering, Radiomic, 64Cu-labeled chelator J

Abstract

The 64Cu-labeled chelator was analyzed in vivo by positron emission tomography (PET) imaging to evaluate its biodistribution in a murine model at different acquisition times. For this purpose, nine 6-week-old female Balb/C nude strain mice underwent micro-PET imaging at three different time points after 64Cu-labeled chelator injection. Specifically, the mice were divided into group 1 (acquisition 1 h after [64Cu] chelator administration, n = 3 mice), group 2 (acquisition 4 h after [64Cu]chelator administration, n = 3 mice), and group 3 (acquisition 24 h after [64Cu] chelator administration, n = 3 mice). Successively, all PET studies were segmented by means of registration with a standard template space (3D whole-body Digimouse atlas), and 108 radiomics features were extracted from seven organs (namely, heart, bladder, stomach, liver, spleen, kidney, and lung) to investigate possible changes over time in [64Cu]chelator biodistribution. The one-way analysis of variance and post hoc Tukey Honestly Significant Difference test revealed that, while heart, stomach, spleen, kidney, and lung districts showed a very low percentage of radiomics features with significant variations (p-value < 0.05) among the three groups of mice, a large number of features (greater than 60% and 50%, respectively) that varied significantly between groups were observed in bladder and liver, indicating a different in vivo uptake of the 64Cu-labeled chelator over time. The proposed methodology may improve the method of calculating the [64Cu]chelator biodistribution and open the way towards a decision support system in the field of new radiopharmaceuticals used in preclinical imaging trials.

Published

2022

222. Correction to: Lactate modulates microglia polarization via IGFBP6 expression and remodels tumor microenvironment in glioblastoma.

Author

Longhitano, Lucia, Vicario, Nunzio, Forte, Stefano, Giallongo, Cesarina, Broggi, Giuseppe, Caltabiano, Rosario, Barbagallo, Giuseppe Maria Vincenzo, Altieri, Roberto, Raciti, Giuseppina, Di Rosa, Michelino, Caruso, Massimo, Parenti, Rosalba, Liso, Arcangelo, Busi, Federica, Lolicato, Marco, Mione, Maria Caterina, Li Volti, Giovanni, and Tibullo, Daniele

Subjects

*TUMOR microenvironment, *GLIOBLASTOMA multiforme, *MICROGLIA, *LACTATES, *LACTATION

Abstract

Lucia Longhitano, Nunzio Vicario and Stefano Forte have contributed equally to this manuscript. The correct affiliations details for Authors' Stefano Forte, Cesarina Giallongo, Giuseppe Broggi, Rosario Caltabiano, Giuseppe Maria Vincenzo Barbagallo, Roberto Altieri, Giuseppina Raciti and Arcangelo Liso should be: 2 IOM Ricerca, 95029 Viagrande, CT, Italy 3 Department of Medical and Surgical Sciences and Advanced Technologies, F. Ingrassia, Anatomic Pathology, University of Catania, Catania, Italy 4 Department of Drug Sciences, University of Catania, Catania, Italy 5 Department of Medical and Surgical Sciences, University of Foggia, 71100 Foggia, Italy Publisher's Note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. [Extracted from the article]

Published

2023

223. Sex-dependent neuro-deconvolution analysis of Alzheimer's disease brain transcriptomes according to CHI3L1 expression levels.

Author

Sanfilippo, Cristina, Castrogiovanni, Paola, Imbesi, Rosa, Musumeci, Giuseppe, Vecchio, Michele, Li Volti, Giovanni, Tibullo, Daniele, Broggi, Giuseppe, Caltabiano, Rosario, Ulivieri, Martina, Kazakova, Maria, Parenti, Rosalba, Vicario, Nunzio, Fazio, Francesco, and Di Rosa, Michelino

Subjects

*ALZHEIMER'S disease, *FRACTALKINE, *BRAIN diseases, *TRANSCRIPTOMES, *GENOMICS, *NEURODEGENERATION

Abstract

Glial activation and related neuroinflammatory processes play a key role in the aging and progression of Alzheimer's disease (AD). CHI3L1 / YKL40 is a widely investigated chitinase in neurodegenerative diseases and recent studies have shown its involvement in aging and AD. Nevertheless, the biological function of CHI3L1 in AD is still unknown. Here, we collected microarray datasets from the National Center for Biotechnology Information (NCBI) brain samples of not demented healthy controls (NDHC) who died from causes not attributable to neurodegenerative disorders (n = 460), and of deceased patients suffering from Alzheimer's disease (AD) (n = 697). The NDHC and AD patients were stratified according to CHI3L1 expression levels as a cut-off. We identified two groups both males and females, subsequently used for our statistical comparisons: the high CHI3L1 expression group (HCEG) and the low CHI3L1 expression group (LCEG). Comparing HCEG to LCEG, we attained four signatures according to the sex of patients, in order to identify the healthy and AD brain cellular architecture, performing a genomic deconvolution analysis. We used neurological signatures (NS) belonging to six neurological cells populations and nine signatures that included the main physiological neurological processes. We discovered that, in the brains of NDHC the high expression levels of CHI3L1 were associated with astrocyte activation profile, while in AD males and females we showed an inflammatory profile microglia-mediated. The low CHI3L1 brain expression levels in NDHC and AD patients highlighted a neuronal activation profile. Furthermore, using drugs opposing CHI3L1 transcriptomic signatures, we found a specific drug profile for AD males and females characterized by high levels of CHI3L1 composed of fostamatinib, rucaparib, cephaeline, prednisolone, and dinoprostone. Brain levels of CHI3L1 in AD patients represent a biological signature that allows distinguishing between males and females and their likely cellular brain architecture. • Deconvolution method represents a new approach to define the brain cells' architecture AD. • CHI3L1 is a chitinase high modulated in neurodegenerative diseases and AD. • In AD brains the high expression levels of CHI3L1 were associated with an inflammatory profile. • Neuronal activation profile is significantly activated in AD patients with low CHI3L1 expression. • Anti-AD drugs identified by L1000FWD showed fostamatinib, rucaparib, cephaeline, prednisolone, and Dinoprostone. [ABSTRACT FROM AUTHOR]

Published

2022

224. The antagonistic effect of the sigma 1 receptor ligand (+)-MR200 on persistent pain induced by inflammation.

Author

Parenti, Carmela, Marrazzo, Agostino, Aricò, Giuseppina, Parenti, Rosalba, Pasquinucci, Lorella, Ronsisvalle, Simone, Ronsisvalle, Giuseppe, and Scoto, Giovanna

Subjects

*SIGMA-1 receptor, *CHRONIC pain, *INFLAMMATION, *CENTRAL nervous system, *ALLERGIES, *PAIN management, *HYPERALGESIA

Abstract

Objective and design: The sigma 1 (σ) receptor, which is widely distributed in the CNS in areas that are known to be important for pain control, may play a role in persistent pain characterized by the hypersensitivity of nociceptive transmission. Here, we investigated the effect of σ blockade in an inflammatory pain model. Treatment and methods: An intraplantar injection of carrageenan (2 %) was used to induce paw inflammation. The effects of the σ antagonist (+)-MR200, given subcutaneously at a dose of 0.1, 0.25, 0.5,1, 1.5, and 2 mg/kg prior to injection of carrageenan, on inflammatory pain and inflammation were assessed. Mechanical allodynia with von Frey filaments, thermal hyperalgesia with the plantar test and edema evaluation with a plethysmometer were measured. Intergroup comparisons were assessed by one- or two-way analysis of variance when appropriate, followed by post-hoc tests (Dunnett's test for one-way or Bonferroni for two-way ANOVA). Results: (+)-MR200 dose-dependently prevented allodynia and hyperalgesia induced by carrageenan. Furthermore, it reduced paw edema with a significant inhibition percentage of 37.82 % at 3 h after carrageenan treatment. Conclusions: The blockade of the σ receptor with the selective antagonist (+)-MR200 may contribute to the suppression of the typical symptoms of inflammatory pain. [ABSTRACT FROM AUTHOR]

Published

2014

225. Synthesis and biological evaluation of 3-hydroxymethyl-5-(1H-1,2,3-triazol) isoxazolidines.

Author

Romeo, Roberto, Giofrè, Salvatore V., Carnovale, Caterina, Campisi, Agata, Parenti, Rosalba, Bandini, Lorenzo, and Chiacchio, Maria A.

Subjects

*HYDROXYMETHYL compounds, *ISOXAZOLIDINES, *CHEMICAL synthesis, *RING formation (Chemistry), *NITRONES, *TRIAZOLES, *AZIDES

Abstract

Abstract: A synthetic approach towards a series of 3-hydroxymethyl-5-(1H-1,2,3-triazol)isoxazolidines has been reported, according to a procedure based on the cycloaddition reaction, under microwave irradiation, of a nitrone with 1-vinyl triazoles, prepared by a click reaction of azides with alkynes. Biological tests show that the synthesized compounds are able to inhibit proliferation of follicular and anaplastic human thyroid cancer cell lines, with IC50 values ranging from 3.87 to 8.76μM. The obtained compounds induce caspase-3 activation and DNA fragmentation prevalently in follicular human thyroid cancer cell lines. [Copyright &y& Elsevier]

Published

2013

226. Synthesis and biological evaluation of 1,7,8,8a-tetrahydro-3H-oxazolo[3,4-a]pyrazin-6(5H)-ones as antitumoral agents.

Author

Chiacchio, Ugo, Barbera, Vincenzina, Bonfanti, Roberta, Broggini, Gian Luigi, Campisi, Agata, Gazzola, Silvia, Parenti, Rosalba, and Romeo, Giovanni

Subjects

*CHEMICAL synthesis, *CANCER cells, *NITROGEN excretion, *ANTINEOPLASTIC agents, *ALKENYL group, *UREA

Abstract

Abstract: A series of 1,7,8,8a-tetrahydro-3H-oxazolo[3,4-a]pyrazin-6(5H)-ones has been synthesized by an intramolecular, palladium(II) catalyzed, aminooxygenation of alkenyl ureas, readily available from glycine allylamides as starting materials. Biological tests showed that the obtained compounds are endowed with an interesting antitumoral activity against two human thyroid cancer cell lines, namely FTC-133 and 8305C, by promoting the apoptotic pathway and DNA fragmentation. [Copyright &y& Elsevier]

Published

2013

227. Innovative Biomaterials for Tissue Engineering

Author

Calabrese, Giovanna, Dolcimascolo, Anna, Parenti, Rosalba, and Conoci, Sabrina

Subjects

Medical

Abstract

In the field of regenerative medicine, biomaterials play a crucial role since they may serve as a support (scaffold) to promote cell growth and differentiation in order to promote the healing of tissue lesion. The aim of this chapter will be to analyze the properties of more recent biomaterials suitable for tissue engineering strategies, to end to define better and innovative materials for scaffold production. To this purpose, we will analyze the main materials (natural and synthetic) and their characteristics, such as biocompatibility, bioactivity, and biodegradation, and it will be discussed how their chemical-physical properties (surface morphology, porosity, stiffness, and mechanical strength) could affect the interaction with cells and living system. Moreover, the chapter will be focused on methods of extraction or production of biomaterial suitable for scaffolds.

Published

2019

228. Phytochemical Analysis and Anti-Inflammatory and Anti-Osteoarthritic Bioactive Potential of Verbascum thapsus L. (Scrophulariaceae) Leaf Extract Evaluated in Two In Vitro Models of Inflammation and Osteoarthritis.

Author

Calabrese, Giovanna, Zappalà, Agata, Dolcimascolo, Anna, Acquaviva, Rosaria, Parenti, Rosalba, and Malfa, Giuseppe Antonio

Subjects

*SCROPHULARIACEAE, *OSTEOARTHRITIS, *GALLIC acid, *THERAPEUTICS, *INFLAMMATION, *CARTILAGE cells

Abstract

Osteoarthritis (OA) is a complex disease, source of pain and disability that affects millions of people worldwide. OA etiology is complex, multifactorial and joint-specific, with genetic, biological and biomechanical components. Recently, several studies have suggested a potential adjuvant role for natural extracts on OA progression, in terms of moderating chondrocyte inflammation and following cartilage injury, thus resulting in an overall improvement of joint pain. In this study, we first analyzed the phenylethanoid glycosides profile and the total amount of polyphenols present in a leaf aqueous extract of Verbascum thapsus L. We then investigated the anti-inflammatory and anti-osteoarthritic bioactive potential of the extract in murine monocyte/macrophage-like cells (RAW 264.7) and in human chondrocyte cells (HC), by gene expression analysis of specifics inflammatory cytokines, pro-inflammatory enzymes and metalloproteases. Six phenylethanoid glycosides were identified and the total phenolic content was 124.0 ± 0.7 mg gallic acid equivalent (GAE)/g of extract. The biological investigation showed that the extract is able to significantly decrease most of the cellular inflammatory markers, compared to both control cells and cells treated with Harpagophytum procumbens (Burch.) DC. ex Meisn, used as a positive control. Verbascum thapsus leaf aqueous extract has the potential to moderate the inflammatory response, representing an innovative possible approach for the inflammatory joint disease treatment. [ABSTRACT FROM AUTHOR]

Published

2021

229. Connexin 43 and Sonic Hedgehog Pathway Interplay in Glioblastoma Cell Proliferation and Migration.

Author

Torrisi, Filippo, Alberghina, Cristiana, Lo Furno, Debora, Zappalà, Agata, Valable, Samuel, Li Volti, Giovanni, Tibullo, Daniele, Vicario, Nunzio, and Parenti, Rosalba

Subjects

*HEDGEHOG signaling proteins, *CONNEXIN 43, *CELL proliferation, *GTPASE-activating protein, *GLIOBLASTOMA multiforme

Abstract

Simple Summary: Glioblastoma is the product of accumulated genetic and epigenetic alteration where tumor cells support each other through cellular communication mechanisms and deregulated signalling processes. The autocrine and paracrine pathways between the intracellular and extracellular milieu is mediated by connexin 43, the main gap junction-forming protein driving glioblastoma progression. In this scenario, sonic hedgehog pathway, a key deregulated pathway involved in cell network signalling may affect connexin 43 expression, promoting glioblastoma pathobiology. In this study, we sought to explore how the modulation of the sonic hedgehog affects connexin 43 inducing glioblastoma hallmarks. To do this we evaluated biological effects of sonic hedgehog pathway modulation by purmorphamine and cyclopamine, a smoothened agonist and antagonist, respectively. We revealed that cell migration and proliferation are associated with connexin 43 expression upon sonic hedgehog modulation. Our study suggests that sonic hedgehog and connexin 43 axis may represent a potential therapeutic strategy for glioblastoma. Glioblastoma (GBM) represents the most common primary brain tumor within the adult population. Current therapeutic options are still limited by high rate of recurrences and signalling axes that promote GBM aggressiveness. The contribution of gap junctions (GJs) to tumor growth and progression has been proven by experimental evidence. Concomitantly, tumor microenvironment has received increasing interest as a critical process in dysregulation and homeostatic escape, finding a close link between molecular mechanisms involved in connexin 43 (CX43)-based intercellular communication and tumorigenesis. Moreover, evidence has come to suggest a crucial role of sonic hedgehog (SHH) signalling pathway in GBM proliferation, cell fate and differentiation. Herein, we used two human GBM cell lines, modulating SHH signalling and CX43-based intercellular communication in in vitro models using proliferation and migration assays. Our evidence suggests that modulation of the SHH effector smoothened (SMO), by using a known agonist (i.e., purmorphamine) and a known antagonist (i.e., cyclopamine), affects the CX43 expression levels and therefore the related functions. Moreover, SMO activation also increased cell proliferation and migration. Importantly, inhibition of CX43 channels was able to prevent SMO-induced effects. SHH pathway and CX43 interplay acts inducing tumorigenic program and supporting cell migration, likely representing druggable targets to develop new therapeutic strategies for GBM. [ABSTRACT FROM AUTHOR]

Published

2021

230. The Wide Morphological Spectrum of Deep (Aggressive) Angiomyxoma of the Vulvo-Vaginal Region: A Clinicopathologic Study of 36 Cases, including Recurrent Tumors.

Author

Magro, Gaetano, Angelico, Giuseppe, Michal, Michal, Broggi, Giuseppe, Zannoni, Gian Franco, Covello, Renato, Marletta, Stefano, Salvatorelli, Lucia, and Parenti, Rosalba

Subjects

*NEUROFIBROMA, *GENITALIA, *TUMORS, *IMMUNOHISTOCHEMISTRY, *DAMS, *DIAGNOSIS

Abstract

Background: Deep angiomyxoma (DAM) is currently included in the category of "specific stromal tumors of the lower female genital tract", along with angiomyofibroblastoma, cellular angiofibroma and myofibroblastoma. Given the high rate of local recurrences, it is crucial to recognize DAM from other tumors that possess indolent behaviour. In the present paper, we analyzed the morphological and immunohistochemical features of 42 surgically-resected vulvo-vaginal DAMs (36 primary and 6 recurrent lesions) in order to widen the morphological spectrum of this uncommon tumor. Methods: A series of 36 cases of surgically-resected primary vulvo-vaginal DAMs were retrospectively collected. Locally recurrent tumors were also available for six of these cases. Results: Out of the primary tumors, 25 out of 36 exhibited the classic-type morphology of DAM. In the remaining cases (11/36 cases), the following uncommon features, which sometimes coexist with one another, were observed: (i) alternating myxoid and collagenized/fibrous areas; (ii) hypercellular areas; (iii) neurofibroma-like appearance; (iv) perivascular hyalinization; (v) microcystic/reticular stromal changes; (vi) "microvascular growth pattern"; (vii) perivascular cuffing; (viii) nodular leiomyomatous differentiation; (ix) hypocellular and fibro-sclerotic stroma. Among the six locally recurrent tumors the following features were observed: (i) classic-type morphology; (ii) hypocellular fibro-sclerotic stroma; (iii) extensive perivascular hyalinization, lumen obliteration and formation of confluent nodular sclerotic masses; (iv) hypercellularity. Immunohistochemically, the neoplastic cells of classic-type DAM in both primary and recurrent tumors were diffusely stained with desmin, suggesting a myofibroblastic nature; in contrast, the neoplastic cells showing elongated fibroblastic-like morphology and set in collagenized/fibrosclerotic stroma in both primary and recurrent tumors were negative or only focally stained with desmin, which is consistent with a fibroblastic profile. Conclusion: Although diagnosis of DAM is usually straightforward if typical morphology is encountered, diagnostic problems may arise when a pathologist is dealing with unusual morphological features, especially hypercellularity, extensive collagenous/fibrosclerotic stroma or neurofibroma-like appearance. [ABSTRACT FROM AUTHOR]

Published

2021

231. The phospholipase DDHD1 as a new target in colorectal cancer therapy

Author

Laura Saieva, Stefania Raimondo, Simona Fontana, Giovanna Calabrese, Francesca Monteleone, Gianluca Giavaresi, Marta Cristaldi, Riccardo Alessandro, Rosalba Parenti, Raimondo, Stefania, Cristaldi, Marta, Fontana, Simona, Saieva, Laura, Monteleone, Francesca, Calabrese, Giovanna, Giavaresi, Gianluca, Parenti, Rosalba, and Alessandro, Riccardo

Subjects

0301 basic medicine, Cancer Research, Colorectal cancer, Apoptosis, Mice, Settore BIO/13 - Biologia Applicata, Gene Regulatory Networks, Molecular Targeted Therapy, Citrus-limon nanovesicle, Transfection, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, 3. Good health, Citrus-limon nanovesicles, Phospholipase DDHD1, Oncology, Phospholipases, Animals, Antineoplastic Agents, Cell Line, Tumor, Cell Proliferation, Colorectal Neoplasms, Computational Biology, Disease Models, Animal, Female, Gene Expression Profiling, Gene Ontology, Gene Silencing, Humans, MAP Kinase Signaling System, Signal Transduction, Xenograft Model Antitumor Assays, Biomarkers, Tumor, lcsh:RC254-282, 03 medical and health sciences, Downregulation and upregulation, In vivo, medicine, Gene silencing, business.industry, Cell growth, Research, Cancer, medicine.disease, 030104 developmental biology, Cancer research, business

Abstract

Background Our previous study demonstrates that Citrus-limon derived nanovesicles are able to decrease colon cancer cell viability, and that this effect is associated with the downregulation of the intracellular phospholipase DDHD domain-containing protein 1 (DDHD1). While few studies are currently available on the contribution of DDHD1 in neurological disorders, there is no information on its role in cancer. This study investigates the role of DDHD1 in colon cancer. Methods DDHD1 siRNAs and an overexpression vector were transfected into colorectal cancer and normal cells to downregulate or upregulate DDHD1 expression. In vitro and in vivo assays were performed to investigate the functional role of DDHD1 in colorectal cancer cell growth. Quantitative proteomics using SWATH-MS was performed to determinate the molecular effects induced by DDHD1 silencing in colorectal cancer cells. Results The results indicate that DDHD1 supports colon cancer cell proliferation and survival, since its downregulation reduces in vitro colon cancer cell viability and increases apoptosis rate, without affecting normal cells. On the contrary, in vivo studies demonstrate that the xenograft tumors, derived from DDHD1-overexpressing cells, have a higher proliferation rate compared to control animals. Additionally, we found that functional categories, significantly affected by DDHD1 silencing, were specifically related to cancer phenotype and for the first time associated to DDHD1 activity. Conclusions In conclusion, this study provides the first evidence confirming the role of DDHD1 in cancer, providing a possibility to define a new target to design more effective therapies for colon cancer patients. Electronic supplementary material The online version of this article (10.1186/s13046-018-0753-z) contains supplementary material, which is available to authorized users.

Published

2018

232. Wilms' Tumor 1 (WT1): A Novel Immunomarker of Dermatofibrosarcoma Protuberans—An Immunohistochemical Study on a Series of 114 Cases of Bland-Looking Mesenchymal Spindle Cell Lesions of the Dermis/Subcutaneous Tissues.

Author

Piombino, Eliana, Broggi, Giuseppe, Barbareschi, Mattia, Castorina, Sergio, Parenti, Rosalba, Bartoloni, Giovanni, Salvatorelli, Lucia, and Magro, Gaetano

Subjects

*BIOMARKERS, *CANCER relapse, *DIFFERENTIAL diagnosis, *GENE expression, *IMMUNE system, *IMMUNOHISTOCHEMISTRY, *CASE studies, *NEPHROBLASTOMA, *SKIN tumors, CONNECTIVE tissue tumors

Abstract

Simple Summary: Dermatofibrosarcoma protuberans (DFSP) is a superficial fibroblastic spindle cell sarcoma with a high rate of local recurrence (20% to 50%) but with a low metastatic potential. DFSP is characterized by COL1A1-PDGFB gene fusion and diffuse immunohistochemical expression of CD34. This immunomarker is especially useful in distinguishing DFSP from its morphological mimickers, especially when pathologists are faced with small biopsies. Apart from CD34, there are no additional diagnostic immunomarkers for DFSP, and thus, there is the need to identify more sensitive and specific markers for this sarcoma. Recently, Wilms' tumor 1 (WT1) has been shown to be diffusely expressed in the cytoplasm of several benign and malignant mesenchymal spindle cell lesions. Based on this background, the aim of this study is to evaluate the immunohistochemical expression of WT1 protein in a series of bland-looking spindle cell lesions of the dermis/subcutis, emphasizing its potential diagnostic role in identifying DFSP among its morphological mimickers. Purpose: to investigate the immunohistochemical expression and distribution of Wilms' tumor 1 (WT1) (transcription factor produced by the tumor suppressor gene of the same name) in a series of 114 cases of bland-looking mesenchymal spindle cell lesions of the dermis/subcutaneous tissues to establish whether this immunomarker is differentially expressed in dermatofibrosarcoma protuberans (DFSP) versus its potential morphological mimickers. Methods: This retrospective multi-centric immunohistochemical study included 57 DFSP cases, 15 dermatofibromas, 5 deep fibrous histiocytomas, 8 neurofibromas, 5 spindle cell lipomas, 8 dermal scars, 6 nodular fasciitis, 5 cutaneous leiomyomas and 5 solitary fibrous tumors. Among the 57 DFSP cases, 11 were recurrent lesions; 2 non-recurrent cases exhibited an additional "fibrosarcomatous" overgrowth and 1 recurrent and 2 primary tumors contained a minority of "giant cell fibroblastoma" components. Results: Most DFSP (95% of cases) exhibited cytoplasmic staining for WT1; 11/11 residual/recurrent tumors showed diffuse and strong WT1 cytoplasmic immunoreactivity; apart from neurofibromas, WT1 expression was lacking in all the other cases studied. Conclusions: The cytoplasmic expression of WT1 may be exploitable as a complementary diagnostic immunomarker to CD34 in confirming the diagnosis of DFSP and to better evaluate the residual/recurrent tumor component. [ABSTRACT FROM AUTHOR]

Published

2021

233. Focus on Osteosclerotic Progression in Primary Myelofibrosis.

Author

Spampinato, Mariarita, Giallongo, Cesarina, Romano, Alessandra, Longhitano, Lucia, La Spina, Enrico, Avola, Roberto, Scandura, Grazia, Dulcamare, Ilaria, Bramanti, Vincenzo, Di Rosa, Michelino, Vicario, Nunzio, Parenti, Rosalba, Li Volti, Giovanni, Tibullo, Daniele, and Palumbo, Giuseppe A.

Subjects

*BONE marrow cells, *MYELOFIBROSIS, *BONE marrow, *BONE growth, *HEMATOPOIESIS, *GROWTH factors, *HEMATOPOIETIC system

Abstract

Primary myelofibrosis (PMF) is a myeloproliferative neoplasm characterized by hematopoietic stem-cell-derived clonal proliferation, leading to bone marrow (BM) fibrosis. Hematopoiesis alterations are closely associated with modifications of the BM microenvironment, characterized by defective interactions between vascular and endosteal niches. As such, neoangiogenesis, megakaryocytes hyperplasia and extensive bone marrow fibrosis, followed by osteosclerosis and bone damage, are the most relevant consequences of PMF. Moreover, bone tissue deposition, together with progressive fibrosis, represents crucial mechanisms of disabilities in patients. Although the underlying mechanisms of bone damage observed in PMF are still unclear, the involvement of cytokines, growth factors and bone marrow microenvironment resident cells have been linked to disease progression. Herein, we focused on the role of megakaryocytes and their alterations, associated with cytokines and chemokines release, in modulating functions of most of the bone marrow cell populations and in creating a complex network where impaired signaling strongly contributes to progression and disabilities. [ABSTRACT FROM AUTHOR]

Published

2021

234. The Role of Hypoxia and SRC Tyrosine Kinase in Glioblastoma Invasiveness and Radioresistance.

Author

Torrisi, Filippo, Vicario, Nunzio, Spitale, Federica M., Cammarata, Francesco P., Minafra, Luigi, Salvatorelli, Lucia, Russo, Giorgio, Cuttone, Giacomo, Valable, Samuel, Gulino, Rosario, Magro, Gaetano, and Parenti, Rosalba

Subjects

*HYPOXEMIA, *CANCER invasiveness, *GLIOMAS, *NEUROSURGERY, *PROTEIN-tyrosine kinases, *RADIATION, *RADIOTHERAPY

Abstract

Simple Summary: The biological pathways underlying glioblastoma malignancy and radioresistance are still unclear. In this review, we describe the role of the hypoxic microenvironment and SRC proto-oncogene non-receptor tyrosine kinase in the activation of radioresistance and invasion pathways of glioblastoma. We also highlight the hypoxia- and ionizing radiation-induced infiltration, providing updated evidences on the involvement of SRC in these processes. Optimizing radiotherapy and identifying druggable molecular players are crucial steps to improve current glioblastoma therapeutic strategies. Advances in functional imaging are supporting neurosurgery and radiotherapy for glioblastoma, which still remains the most aggressive brain tumor with poor prognosis. The typical infiltration pattern of glioblastoma, which impedes a complete surgical resection, is coupled with a high rate of invasiveness and radioresistance, thus further limiting efficient therapy, leading to inevitable and fatal recurrences. Hypoxia is of crucial importance in gliomagenesis and, besides reducing radiotherapy efficacy, also induces cellular and molecular mediators that foster proliferation and invasion. In this review, we aimed at analyzing the biological mechanism of glioblastoma invasiveness and radioresistance in hypoxic niches of glioblastoma. We also discussed the link between hypoxia and radiation-induced radioresistance with activation of SRC proto-oncogene non-receptor tyrosine kinase, prospecting potential strategies to overcome the current limitation in glioblastoma treatment. [ABSTRACT FROM AUTHOR]

Published

2020

235. Inhibition of TLR4 Signaling Affects Mitochondrial Fitness and Overcomes Bortezomib Resistance in Myeloma Plasma Cells.

Author

Giallongo, Cesarina, Tibullo, Daniele, Puglisi, Fabrizio, Barbato, Alessandro, Vicario, Nunzio, Cambria, Daniela, Parrinello, Nunziatina Laura, Romano, Alessandra, Conticello, Concetta, Forte, Stefano, Parenti, Rosalba, Amorini, Angela Maria, Lazzarino, Giuseppe, Li Volti, Giovanni, Palumbo, Giuseppe Alberto, and Di Raimondo, Francesco

Subjects

*APOPTOSIS, *CELL physiology, *CELL receptors, *DRUG resistance in cancer cells, *MITOCHONDRIA, *MULTIPLE myeloma, *OXIDATIVE stress, *BORTEZOMIB

Abstract

Multiple myeloma (MM) is a B-cell malignancy requiring inflammatory microenvironment signals for cell survival and proliferation. Despite improvements in pharmacological tools, MM remains incurable mainly because of drug resistance. The present study aimed to investigate the implication of Toll-like receptor 4 (TLR4) as the potential mechanism of bortezomib (BTZ) resistance. We found that TLR4 activation induced mitochondrial biogenesis and increased mitochondrial mass in human MM cell lines. Moreover, TLR4 signaling was activated after BTZ exposure and was increased in BTZ-resistant U266 (U266-R) cells. A combination of BTZ with TAK-242, a selective TLR4 inhibitor, overcame drug resistance through the generation of higher and extended oxidative stress, strong mitochondrial depolarization and severe impairment of mitochondrial fitness which in turn caused cell energy crisis and activated mitophagy and apoptosis. We further confirmed the efficacy of a TAK-242/BTZ combination in plasma cells from refractory myeloma patients. Consistently, inhibition of TLR4 increased BTZ-induced mitochondrial depolarization, restoring pharmacological response. Taken together, these findings indicate that TLR4 signaling acts as a stress-responsive mechanism protecting mitochondria during BTZ exposure, sustaining mitochondrial metabolism and promoting drug resistance. Inhibition of TLR4 could be therefore be a possible target in patients with refractory MM to overcome BTZ resistance. [ABSTRACT FROM AUTHOR]

Published

2020

236. SRC Tyrosine Kinase Inhibitor and X-rays Combined Effect on Glioblastoma Cell Lines.

Author

Torrisi, Filippo, Minafra, Luigi, Cammarata, Francesco P., Savoca, Gaetano, Calvaruso, Marco, Vicario, Nunzio, Maccari, Laura, Pérès, Elodie A., Özçelik, Hayriye, Bernaudin, Myriam, Botta, Lorenzo, Russo, Giorgio, Parenti, Rosalba, and Valable, Samuel

Subjects

*GLIOBLASTOMA multiforme, *PROTEIN-tyrosine kinases, *CELL lines, *KINASE inhibitors, *X-rays

Abstract

Glioblastoma (GBM) is one of the most lethal types of tumor due to its high recurrence level in spite of aggressive treatment regimens involving surgery, radiotherapy and chemotherapy. Hypoxia is a feature of GBM, involved in radioresistance, and is known to be at the origin of treatment failure. The aim of this work was to assess the therapeutic potential of a new targeted c-SRC inhibitor molecule, named Si306, in combination with X-rays on the human glioblastoma cell lines, comparing normoxia and hypoxia conditions. For this purpose, the dose modifying factor and oxygen enhancement ratio were calculated to evaluate the Si306 radiosensitizing effect. DNA damage and the repair capability were also studied from the kinetic of γ-H2AX immunodetection. Furthermore, motility processes being supposed to be triggered by hypoxia and irradiation, the role of c-SRC inhibition was also analyzed to evaluate the migration blockage by wound healing assay. Our results showed that inhibition of the c-SRC protein enhances the radiotherapy efficacy both in normoxic and hypoxic conditions. These data open new opportunities for GBM treatment combining radiotherapy with molecularly targeted drugs to overcome radioresistance. [ABSTRACT FROM AUTHOR]

Published

2020

237. Evaluation of a Cell-Free Collagen Type I-Based Scaffold for Articular Cartilage Regeneration in an Orthotopic Rat Model.

Author

Szychlinska, Marta Anna, Calabrese, Giovanna, Ravalli, Silvia, Dolcimascolo, Anna, Castrogiovanni, Paola, Fabbi, Claudia, Puglisi, Caterina, Lauretta, Giovanni, Di Rosa, Michelino, Castorina, Alessandro, Parenti, Rosalba, and Musumeci, Giuseppe

Subjects

*CARTILAGE regeneration, *ARTICULAR cartilage, *CARTILAGE, *COLLAGEN, *RATS, *TISSUE engineering

Abstract

The management of chondral defects represents a big challenge because of the limited self-healing capacity of cartilage. Many approaches in this field obtained partial satisfactory results. Cartilage tissue engineering, combining innovative scaffolds and stem cells from different sources, emerges as a promising strategy for cartilage regeneration. The aim of this study was to evaluate the capability of a cell-free collagen I-based scaffold to promote cartilaginous repair after orthotopic implantation in vivo. Articular cartilage lesions (ACL) were created at the femoropatellar groove in rat knees and cell free collagen I-based scaffolds (S) were then implanted into right knee defect for the ACL-S group. No scaffold was implanted for the ACL group. At 4-, 8- and 16-weeks post-transplantation, degrees of cartilage repair were evaluated by morphological, histochemical and gene expression analyses. Histological analysis shows the formation of fibrous tissue, at 4-weeks replaced by a tissue resembling the calcified one at 16-weeks in the ACL group. In the ACL-S group, progressive replacement of the scaffold with the newly formed cartilage-like tissue is shown, as confirmed by Alcian Blue staining. Immunohistochemical and quantitative real-time PCR (qRT-PCR) analyses display the expression of typical cartilage markers, such as collagen type I and II (ColI and ColII), Aggrecan and Sox9. The results of this study display that the collagen I-based scaffold is highly biocompatible and able to recruit host cells from the surrounding joint tissues to promote cartilaginous repair of articular defects, suggesting its use as a potential approach for cartilage tissue regeneration. [ABSTRACT FROM AUTHOR]

Published

2020

238. Mitochondrial Functions, Energy Metabolism and Protein Glycosylation are Interconnected Processes Mediating Resistance to Bortezomib in Multiple Myeloma Cells.

Author

Tibullo, Daniele, Giallongo, Cesarina, Romano, Alessandra, Vicario, Nunzio, Barbato, Alessandro, Puglisi, Fabrizio, Parenti, Rosalba, Amorini, Angela Maria, Saab, Miriam Wissam, Tavazzi, Barbara, Mangione, Renata, Brundo, Maria Violetta, Lazzarino, Giacomo, Palumbo, Giuseppe Alberto, Li Volti, Giovanni, Di Raimondo, Francesco, and Lazzarino, Giuseppe

Subjects

*GLYCOSYLATION, *OXIDATIVE phosphorylation, *MULTIPLE myeloma, *ENERGY metabolism, *PROTEIN metabolism, *BORTEZOMIB, *PROTEASOME inhibitors

Abstract

The proteasome inhibitor bortezomib (BTZ) has emerged as an effective drug for the treatment of multiple myeloma even though many patients relapse from BTZ therapy. The present study investigated the metabolic pathways underlying the acquisition of bortezomib resistance in multiple myeloma. We used two different clones of multiple myeloma cell lines exhibiting different sensitivities to BTZ (U266 and U266-R) and compared them in terms of metabolic profile, mitochondrial fitness and redox balance homeostasis capacity. Our results showed that the BTZ-resistant clone (U266-R) presented increased glycosylated UDP-derivatives when compared to BTZ-sensitive cells (U266), thus also suggesting higher activities of the hexosamine biosynthetic pathway (HBP), regulating not only protein O- and N-glycosylation but also mitochondrial functions. Notably, U266-R displayed increased mitochondrial biogenesis and mitochondrial dynamics associated with stronger antioxidant defenses. Furthermore, U266-R maintained a significantly higher concentration of substrates for protein glycosylation when compared to U266, particularly for UDP-GlcNac, thus further suggesting the importance of glycosylation in the BTZ pharmacological response. Moreover, BTZ-treated U266-R showed significantly higher ATP/ADP ratios and levels of ECP and also exhibited increased mitochondrial fitness and antioxidant response. In conclusions, our findings suggest that the HBP may play a major role in mitochondrial fitness, driving BTZ resistance in multiple myeloma and thus representing a possible target for new drug development for BTZ-resistant patients. [ABSTRACT FROM AUTHOR]

Published

2020

239. Ixazomib Improves Bone Remodeling and Counteracts Sonic Hedgehog Signaling Inhibition Mediated by Myeloma Cells.

Author

Tibullo, Daniele, Longo, Anna, Vicario, Nunzio, Romano, Alessandra, Barbato, Alessandro, Di Rosa, Michelino, Barbagallo, Ignazio, Anfuso, Carmelina Daniela, Lupo, Gabriella, Gulino, Rosario, Parenti, Rosalba, Li Volti, Giovanni, Palumbo, Giuseppe Alberto, Di Raimondo, Francesco, and Giallongo, Cesarina

Subjects

*BONE remodeling, *BONE resorption, *BONE growth, *CELL lines, *CELLULAR signal transduction, *MULTIPLE myeloma, *OSTEOCLASTS, *PROTEASE inhibitors, *OSTEOBLASTS, *SIGNAL peptides, *PHARMACODYNAMICS

Abstract

Multiple myeloma (MM) is a clonal B-cell malignancy characterized by an accumulation of plasma cells (PC) in the bone marrow (BM), leading to bone loss and BM failure. Osteolytic bone disease is a common manifestation observed in MM patients and represents the most severe cause of morbidity, leading to progressive skeletal damage and disabilities. Pathogenetic mechanisms of MM bone disease are closely linked to PCs and osteoclast (OCs) hyperactivity, coupled with defective osteoblasts (OBs) function that is unable to counteract bone resorption. The aim of the present study was to investigate the effects of Ixazomib, a third-generation proteasome inhibitor, on osteoclastogenesis and osteogenic differentiation. We found that Ixazomib was able to reduce differentiation of human monocytes into OCs and to inhibit the expression of OC markers when added to the OC medium. Concurrently, Ixazomib was able to stimulate osteogenic differentiation of human mesenchymal stromal cells (MSCs), increasing osteogenic markers, either alone or in combination with the osteogenic medium. Given the key role of Sonic Hedgehog (SHH) signaling in bone homeostasis, we further investigated Ixazomib-induced SHH pathway activation. This set of experiments showed that Ixazomib, but not Bortezomib, was able to bind the Smoothened (SMO) receptor leading to nuclear translocation of GLI1 in human MSCs. Moreover, we demonstrated that PCs act as GLI1 suppressors on MSCs, thus reducing the potential of MSCs to differentiate in OBs. In conclusion, our data demonstrated that Ixazomib regulates bone remodeling by decreasing osteoclastogenesis and prompting osteoblast differentiation via the canonical SHH signaling pathway activation, thus, representing a promising therapeutic option to improve the complex pathological condition of MM patients. [ABSTRACT FROM AUTHOR]

Published

2020

240. Circulating miR-130a, miR-27b, and miR-210 in Patients With Peripheral Artery Disease and Their Potential Relationship With Oxidative Stress: A Pilot Study

Author

Rosalba Parenti, Salvatore Santo Signorelli, Valerio Fiore, Giovanni Li Volti, Manfredi Rizzo, Alessandro Pitruzzella, Marco Mangiafico, Luca Vanella, Guido Li Volsi, Signorelli, Salvatore Santo, Volsi, Guido Li, Pitruzzella, Alessandro, Fiore, Valerio, Mangiafico, Marco, Vanella, Luca, Parenti, Rosalba, Rizzo, Manfredi, and Volti, Giovanni Li

Subjects

0301 basic medicine, Oncology, Male, medicine.medical_specialty, Lipid Peroxides, Statistics as Topic, Pilot Projects, Disease, 030204 cardiovascular system & hematology, Isoprostanes, medicine.disease_cause, 03 medical and health sciences, chemistry.chemical_compound, Peripheral Arterial Disease, 0302 clinical medicine, Isoprostane, Risk Factors, Internal medicine, microRNA, medicine, Humans, Pilot Project, In patient, Aged, oxidative stre, Heme Oxygenase, Lipid Peroxide, business.industry, Risk Factor, Biomarker, Glutathione, Middle Aged, Heme oxygenase, MicroRNAs, Oxidative Stress, 030104 developmental biology, chemistry, Biomarker (medicine), Female, Cardiology and Cardiovascular Medicine, business, Body mass index, Oxidative stress, Biomarkers, Heme Oxygenase-1, Human

Abstract

Some emerging risk factors such as oxidative stress biomarkers and microRNAs (miRs) may add additional value to the established risk factors for peripheral artery disease (PAD). We enrolled 27 patients with PAD and 27 age-matched controls. We examined the levels of a series of miRs (miR-130a, miR-27b, and miR-210) in serum samples. The level of well-established oxidative stress biomarkers, such as lipid hydroperoxides, isoprostanes, hemeoxygenase-1 (HO-1) and reduced glutathione, was also measured in plasma and their relationship with the miRs was determined. Levels of miR-130a, miR-27b, and miR-210 were significantly increased in patients with PAD when compared to the controls. The level of miR-130 was positively correlated with body mass index, whereas miR-210 was inversely associated with pain-free walking distance (PfWD). None of the evaluated miRs was associated with lowered PfWD of patients with PAD (stage IIa > 250 m, IIb < 250 m) or oxidative stress parameters. In conclusion, our findings suggest the need for more research to assess if miRs can serve as useful markers for the early diagnosis and monitoring of PAD.

Published

2016

241. Proton Therapy and Src Family Kinase Inhibitor Combined Treatments on U87 Human Glioblastoma Multiforme Cell Line.

Author

Cammarata, Francesco P, Torrisi, Filippo, Forte, Giusi I, Minafra, Luigi, Bravatà, Valentina, Pisciotta, Pietro, Savoca, Gaetano, Calvaruso, Marco, Petringa, Giada, Cirrone, Giuseppe A. P., Fallacara, Anna L, Maccari, Laura, Botta, Maurizio, Schenone, Silvia, Parenti, Rosalba, Cuttone, Giacomo, and Russo, Giorgio

Subjects

*GLIOBLASTOMA multiforme, *PROTON therapy, *FAMILY psychotherapy, *CELL lines, *KINASE inhibitors, *ONE-way analysis of variance

Abstract

Glioblastoma Multiforme (GBM) is the most common of malignant gliomas in adults with an exiguous life expectancy. Standard treatments are not curative and the resistance to both chemotherapy and conventional radiotherapy (RT) plans is the main cause of GBM care failures. Proton therapy (PT) shows a ballistic precision and a higher dose conformity than conventional RT. In this study we investigated the radiosensitive effects of a new targeted compound, SRC inhibitor, named Si306, in combination with PT on the U87 glioblastoma cell line. Clonogenic survival assay, dose modifying factor calculation and linear-quadratic model were performed to evaluate radiosensitizing effects mediated by combination of the Si306 with PT. Gene expression profiling by microarray was also conducted after PT treatments alone or combined, to identify gene signatures as biomarkers of response to treatments. Our results indicate that the Si306 compound exhibits a radiosensitizing action on the U87 cells causing a synergic cytotoxic effect with PT. In addition, microarray data confirm the SRC role as the main Si306 target and highlights new genes modulated by the combined action of Si306 and PT. We suggest, the Si306 as a new candidate to treat GBM in combination with PT, overcoming resistance to conventional treatments. [ABSTRACT FROM AUTHOR]

Published

2019

242. Clobetasol Modulates Adult Neural Stem Cell Growth via Canonical Hedgehog Pathway Activation.

Author

Vicario, Nunzio, Bernstock, Joshua D., Spitale, Federica M., Giallongo, Cesarina, Giunta, Maria A.S., Li Volti, Giovanni, Gulisano, Massimo, Leanza, Giampiero, Tibullo, Daniele, Parenti, Rosalba, and Gulino, Rosario

Subjects

*CYCLOPAMINE, *CORTICOSTERONE, *DEXAMETHASONE, *FLUTICASONE, *PREDNISONE

Abstract

Sonic hedgehog (Shh) signaling is a key pathway within the central nervous system (CNS), during both development and adulthood, and its activation via the 7-transmembrane protein Smoothened (Smo) may promote neuroprotection and restoration during neurodegenerative disorders. Shh signaling may also be activated by selected glucocorticoids such as clobetasol, fluocinonide and fluticasone, which therefore act as Smo agonists and hold potential utility for regenerative medicine. However, despite its potential role in neurodegenerative diseases, the impact of Smo-modulation induced by these glucocorticoids on adult neural stem cells (NSCs) and the underlying signaling mechanisms are not yet fully elucidated. The aim of the present study was to evaluate the effects of Smo agonists (i.e., purmorphamine) and antagonists (i.e., cyclopamine) as well as of glucocorticoids (i.e., clobetasol, fluocinonide and fluticasone) on NSCs in terms of proliferation and clonal expansion. Purmorphamine treatment significantly increased NSC proliferation and clonal expansion via GLI-Kruppel family member 1 (Gli1) nuclear translocation and such effects were prevented by cyclopamine co-treatment. Clobetasol treatment exhibited an equivalent pharmacological effect. Moreover, cellular thermal shift assay suggested that clobetasol induces the canonical Smo-dependent activation of Shh signaling, as confirmed by Gli1 nuclear translocation and also by cyclopamine co-treatment, which abolished these effects. Finally, fluocinonide and fluticasone as well as control glucocorticoids (i.e., prednisone, corticosterone and dexamethasone) showed no significant effects on NSCs proliferation and clonal expansion. In conclusion, our data suggest that Shh may represent a druggable target system to drive neuroprotection and promote restorative therapies. [ABSTRACT FROM AUTHOR]

Published

2019

243. MiR-19a Overexpression in FTC-133 Cell Line Induces a More De-Differentiated and Aggressive Phenotype.

Author

Calabrese, Giovanna, Dolcimascolo, Anna, Torrisi, Filippo, Zappalà, Agata, Gulino, Rosario, and Parenti, Rosalba

Subjects

*MICRORNA, *CELL lines, *ONCOGENES, *TUMOR suppressor genes, *THYROID cancer, *CANCER cells

Abstract

In recent years, microRNAs (miRNAs) have received increasing attention for their important role in tumor initiation and progression. MiRNAs are a class of endogenous small non-coding RNAs that negatively regulate the expression of several oncogenes or tumor suppressor genes. MiR-19a, a component of the oncogenic miR-17-92 cluster, has been reported to be highly expressed only in anaplastic thyroid cancer, the most undifferentiated, aggressive and lethal form of thyroid neoplasia. In this work, we evaluated the putative contribution of miR-19a in de-differentiation and aggressiveness of thyroid tumors. To this aim, we induced miR-19a expression in the well-differentiated follicular thyroid cancer cell line and evaluated proliferation, apoptosis and gene expression profile of cancer cells. Our results showed that miR-19a overexpression stimulates cell proliferation and alters the expression profile of genes related to thyroid cell differentiation and aggressiveness. These findings not only suggest that miR-19a has a possible involvement in de-differentiation and malignancy, but also that it could represent an important prognostic indicator and a good therapeutic target for the most aggressive thyroid cancer. [ABSTRACT FROM AUTHOR]

Published

2018

244. The phospholipase DDHD1 as a new target in colorectal cancer therapy.

Author

Raimondo, Stefania, Cristaldi, Marta, Fontana, Simona, Saieva, Laura, Monteleone, Francesca, Calabrese, Giovanna, Giavaresi, Gianluca, Parenti, Rosalba, and Alessandro, Riccardo

Subjects

*PHOSPHOLIPASES, *COLON cancer treatment, *CELL survival, *GENETIC overexpression, *CANCER cell growth, *CANCER cell proliferation

Abstract

Background: Our previous study demonstrates that Citrus-limon derived nanovesicles are able to decrease colon cancer cell viability, and that this effect is associated with the downregulation of the intracellular phospholipase DDHD domain-containing protein 1 (DDHD1). While few studies are currently available on the contribution of DDHD1 in neurological disorders, there is no information on its role in cancer. This study investigates the role of DDHD1 in colon cancer. Methods: DDHD1 siRNAs and an overexpression vector were transfected into colorectal cancer and normal cells to downregulate or upregulate DDHD1 expression. In vitro and in vivo assays were performed to investigate the functional role of DDHD1 in colorectal cancer cell growth. Quantitative proteomics using SWATH-MS was performed to determinate the molecular effects induced by DDHD1 silencing in colorectal cancer cells. Results: The results indicate that DDHD1 supports colon cancer cell proliferation and survival, since its downregulation reduces in vitro colon cancer cell viability and increases apoptosis rate, without affecting normal cells. On the contrary, in vivo studies demonstrate that the xenograft tumors, derived from DDHD1-overexpressing cells, have a higher proliferation rate compared to control animals. Additionally, we found that functional categories, significantly affected by DDHD1 silencing, were specifically related to cancer phenotype and for the first time associated to DDHD1 activity. Conclusions: In conclusion, this study provides the first evidence confirming the role of DDHD1 in cancer, providing a possibility to define a new target to design more effective therapies for colon cancer patients. [ABSTRACT FROM AUTHOR]

Published

2018

245. Skeletal muscle of young females under resistance exercise exhibits a unique innate immune cell infiltration profile compared to males and elderly individuals.

Author

Castrogiovanni P, Sanfilippo C, Imbesi R, Lazzarino G, Li Volti G, Tibullo D, Vicario N, Parenti R, Giuseppe L, Barbagallo I, Alanazi AM, Vecchio M, Cappello F, Musumeci G, and Di Rosa M

Subjects

Humans, Male, Female, Aged, Adult, Middle Aged, Young Adult, Exercise physiology, Muscle, Skeletal metabolism, Muscle, Skeletal immunology, Immunity, Innate, Resistance Training

Abstract

Muscle damage resulting from physical activities such as exercise triggers an immune response crucial for tissue repair and recovery. This study investigates the immune cell profiles in muscle biopsies of individuals engaged in resistance exercise (RE) and explores the impact of age and sex on the immune response following exercise-induced muscle damage. Microarray datasets from muscle biopsies of young and old subjects were analyzed, focusing on the gene expression patterns associated with immune cell activation. Genes were compared with immune cell signatures to reveal the cellular landscape during exercise. Results show that the most significant modulated gene after RE was Folliculin Interacting Protein 2 (FNIP2) a crucial regulator in cellular homeostasis. Moreover, the transcriptome was stratified based on the expression of FNIP2 and the 203 genes common to the groups obtained based on sex and age. Gene ontology analysis highlighted the FLCN-FNIP1-FNIP2 complex, which exerts as a negative feedback loop to Pi3k-Akt-mTORC1 pathway. Furthermore, we highlighted that the young females exhibit a distinct innate immune cell activation signature compared to males after a RE session. Specifically, young females demonstrate a notable overlap with dendritic cells (DCs), M1 macrophages, M2 macrophages, and neutrophils, while young males overlap with M1 macrophages, M2 macrophages, and motor neurons. Interestingly, in elderly subjects, both sexes display M1 macrophage activation signatures. Comparison of young and elderly signatures reveals an increased M1 macrophage percentage in young subjects. Additionally, common genes were identified in both sexes across different age groups, elucidating biological functions related to cell remodeling and immune activation. This study underscores the intricate interplay between sex, age, and the immune response in muscle tissue following RE, offering potential directions for future research. Nevertheless, there is a need for further studies to delve deeper and confirm the dynamics of immune cells in response to exercise-induced muscle damage., Competing Interests: Declarations Competing interests The authors declare no competing interests., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

246. Sigma-1 receptor targeting inhibits connexin 43 based intercellular communication in chronic neuropathic pain.

Author

Denaro S, D'Aprile S, Torrisi F, Zappalà A, Marrazzo A, Al-Khrasani M, Pasquinucci L, Vicario N, Parenti R, and Parenti C

Subjects

Animals, Male, Astrocytes drug effects, Astrocytes metabolism, Cell Communication drug effects, Chronic Pain drug therapy, Chronic Pain metabolism, Microglia drug effects, Microglia metabolism, Rats, Sprague-Dawley, Hyperalgesia drug therapy, Hyperalgesia metabolism, Neurons drug effects, Neurons metabolism, Sciatic Nerve injuries, Morpholines pharmacology, Morpholines therapeutic use, Receptors, sigma metabolism, Receptors, sigma agonists, Neuralgia drug therapy, Neuralgia metabolism, Sigma-1 Receptor, Connexin 43 metabolism

Abstract

Background and Objective: Neuropathic pain is a chronic condition characterized by aberrant signaling within the somatosensory system, affecting millions of people worldwide with limited treatment options. Herein, we aim at investigating the potential of a sigma-1 receptor (σ1R) antagonist in managing neuropathic pain., Methods: A Chronic Constriction Injury (CCI) model was used to induce neuropathic pain. The potential of (+)-MR200 was evaluated following daily subcutaneous injections of the compound. Its mechanism of action was confirmed by administration of a well-known σ1R agonist, PRE084., Results: (+)-MR200 demonstrated efficacy in protecting neurons from damage and alleviating pain hypersensitivity in CCI model. Our results suggest that (+)-MR200 reduced the activation of astrocytes and microglia, cells known to contribute to the neuroinflammatory process, suggesting that (+)-MR200 may not only address pain symptoms but also tackle the underlying cellular mechanism involved. Furthermore, (+)-MR200 treatment normalized levels of the gap junction (GJ)-forming protein connexin 43 (Cx43), suggesting a reduction in harmful intercellular communication that could fuel the chronicity of pain., Conclusions: This approach could offer a neuroprotective strategy for managing neuropathic pain, addressing both pain symptoms and cellular processes driving the condition. Understanding the dynamics of σ1R expression and function in neuropathic pain is crucial for clinical intervention., (© 2024. The Author(s).)

Published

2024

247. Glioblastoma mesenchymal subtype enhances antioxidant defence to reduce susceptibility to ferroptosis.

Author

D'Aprile S, Denaro S, Lavoro A, Candido S, Giallongo S, Torrisi F, Salvatorelli L, Lazzarino G, Amorini AM, Lazzarino G, Magro G, Tibullo D, Libra M, Giallongo C, Vicario N, and Parenti R

Subjects

Humans, Cell Line, Tumor, Brain Neoplasms metabolism, Brain Neoplasms pathology, Brain Neoplasms genetics, Gene Expression Regulation, Neoplastic, Ferric Compounds pharmacology, Quaternary Ammonium Compounds pharmacology, Glutathione metabolism, Piperazines, Ferroptosis drug effects, Ferroptosis genetics, Glioblastoma metabolism, Glioblastoma pathology, Glioblastoma genetics, Antioxidants pharmacology, Antioxidants metabolism

Abstract

Glioblastoma (GBM) represents an aggressive brain tumor, characterized by intra- and inter-tumoral heterogeneity and therapy resistance, leading to unfavourable prognosis. An increasing number of studies pays attention on the regulation of ferroptosis, an iron-dependent cell death, as a strategy to reverse drug resistance in cancer. However, the debate on whether this strategy may have important implications for the treatment of GBM is still ongoing. In the present study, we used ferric ammonium citrate and erastin to evaluate ferroptosis induction effects on two human GBM cell lines, U-251 MG, with proneural characteristics, and T98-G, with a mesenchymal profile. The response to ferroptosis induction was markedly different between cell lines, indeed T98-G cells showed an enhanced antioxidant defence, with increased glutathione levels, as compared to U-251 MG cells. Moreover, using bioinformatic approaches and analysing publicly available datasets from patients' biopsies, we found that GBM with a mesenchymal phenotype showed an up-regulation of several genes involved in antioxidant mechanisms as compared to proneural subtype. Thus, our results suggest that GBM subtypes differently respond to ferroptosis induction, emphasizing the significance of further molecular studies on GBM to better discriminate between various tumor subtypes and progressively move towards personalized therapy., (© 2024. The Author(s).)

Published

2024

248. Effect of Ferulic Acid Loaded in Nanoparticle on Tissue Transglutaminase Expression Levels in Human Glioblastoma Cell Line.

Author

Dell'Albani P, Carbone C, Sposito G, Spatuzza M, Chiacchio MA, Grasso R, Legnani L, Santonocito D, Puglia C, Parenti R, Puglisi G, and Campisi A

Subjects

Humans, Cell Line, Tumor, Drug Carriers chemistry, Apoptosis drug effects, Antineoplastic Agents pharmacology, Brain Neoplasms drug therapy, Brain Neoplasms metabolism, Brain Neoplasms pathology, Gene Expression Regulation, Neoplastic drug effects, Coumaric Acids pharmacology, Transglutaminases metabolism, Transglutaminases genetics, Glioblastoma metabolism, Glioblastoma drug therapy, Glioblastoma pathology, Protein Glutamine gamma Glutamyltransferase 2 metabolism, GTP-Binding Proteins metabolism, GTP-Binding Proteins genetics, Nanoparticles chemistry

Abstract

Glioblastoma (GBM) is one of the most aggressive cancers, characterized by a decrease in antioxidant levels. Evidence has demonstrated that ferulic acid (FA), a natural antioxidant particularly abundant in vegetables and fruits, could be a promising candidate for GBM treatment. Since FA shows a high instability that compromises its therapeutic application, it has been encapsulated into Nanostructured Lipid Carriers (NLCs) to improve its bioavailability in the brain. It has been demonstrated that tissue transglutaminase (TG2) is a multi-functional protein implicated in many physiological and pathological processes, including cancer. TG2 is also involved in GBM correlated with metastasis formation and drug resistance. Therefore, the evaluation of TG2 expression levels and its cellular localization are important to assess the anti-cancer effect of FA against GBM cancer. Our results have demonstrated that treatment with free FA and FA-NLCs in the U87-MG cancer cell line differently modified TG2 localization and expression levels. In the cells treated with free FA, TG2 appeared expressed both in the cytosol and in the nucleus, while the treatment with FA-NLCs showed that the protein is exclusively localized in the cytosol, exerting its pro-apoptotic effect. Therefore, our data suggest that FA loaded in NLCs could represent a promising natural agent for supplementing the current anti-cancer drugs used for the treatment of GBM.

Published

2024

249. Enhanced Antitumor Activity by the Combination of Dasatinib and Selinexor in Chronic Myeloid Leukemia.

Author

Spampinato M, Zuppelli T, Dulcamare I, Longhitano L, Sambataro D, Santisi A, Alanazi AM, Barbagallo IA, Vicario N, Parenti R, Romano A, Musumeci G, Li Volti G, Palumbo GA, Di Raimondo F, Nicolosi A, Giallongo S, and Del Fabro V

Abstract

Background: Chronic myeloid leukemia is a hematological malignancy characterized by the abnormal proliferation of leukemic cells. Despite significant progress with tyrosine kinase inhibitors, such as Dasatinib, resistance remains a challenge. The aim of the present study was to investigate the potential of Selinexor, an Exportin-1 inhibitor, to improve TKI effectiveness on CML., Methods: Human CML cell lines (LAMA84 and K562) were treated with Selinexor, Dasatinib, or their combination. Apoptosis, mitochondrial membrane potential, and mitochondrial mass were assessed using flow cytometry. Real-time RT-PCR was used to evaluate the expression of genes related to mitochondrial function. Western blot and confocal microscopy examined PINK and heme oxygenase-1 (HO-1) protein levels., Results: Selinexor induced apoptosis and mitochondrial depolarization in CML cell lines, reducing cell viability. The Dasatinib/Selinexor combination further enhanced cytotoxicity, modified mitochondrial fitness, and downregulated HO-1 nuclear translocation, which has been associated with drug resistance in different models., Conclusions: In conclusion, this study suggests that Dasatinib/Selinexor could be a promising therapeutic strategy for CML, providing new insights for new targeted therapies.

Published

2024

250. Microglia and glioblastoma heterocellular interplay sustains tumour growth and proliferation as an off-target effect of radiotherapy.

Author

Alberghina C, Torrisi F, D'Aprile S, Longhitano L, Giallongo S, Scandura G, Mannino G, Mele S, Sabini MG, Cammarata FP, Russo G, Abdelhameed AS, Zappalà A, Lo Furno D, Giuffrida R, Li Volti G, Tibullo D, Vicario N, and Parenti R

Subjects

Humans, Cell Line, Tumor, Culture Media, Conditioned pharmacology, Cell Survival radiation effects, Mitochondria metabolism, Mitochondria radiation effects, Glioblastoma radiotherapy, Glioblastoma pathology, Glioblastoma metabolism, Microglia metabolism, Microglia pathology, Microglia radiation effects, Cell Proliferation radiation effects, Tumor Microenvironment radiation effects, Brain Neoplasms pathology, Brain Neoplasms radiotherapy, Brain Neoplasms metabolism

Abstract

Glioblastoma (GBM), a WHO grade IV glioma, is a malignant primary brain tumour for which combination of surgery, chemotherapy and radiotherapy is the first-line approach despite adverse effects. Tumour microenvironment (TME) is characterized by an interplay of cells and soluble factors holding a critical role in neoplastic development. Significant pathophysiological changes have been found in GBM TME, such as glia activation and oxidative stress. Microglia play a crucial role in favouring GBM growth, representing target cells of immune escape mechanisms. Our study aims at analysing radiation-induced effects in modulating intercellular communication and identifying the basis of protective mechanisms in radiation-naïve GBM cells. Tumour cells were treated with conditioned media (CM) derived from 0, 2 or 15 Gy irradiated GBM cells or 0, 2 or 15 Gy irradiated human microglia. We demonstrated that irradiated microglia promote an increase of GBM cell lines proliferation through paracrine signalling. On the contrary, irradiated GBM-derived CM affect viability, triggering cell death mechanisms. In addition, we investigated whether these processes involve mitochondrial mass, fitness and oxidative phosphorylation and how GBM cells respond at these induced alterations. Our study suggests that off-target radiotherapy modulates microglia to support GBM proliferation and induce metabolic modifications., (© 2024 The Authors. Cell Proliferation published by Beijing Institute for Stem Cell and Regenerative Medicine and John Wiley & Sons Ltd.)

Published

2024