Your search keyword '"Sara Marinelli"' showing total 19 results

1. Essential role of p21Waf1/Cip1 in the modulation of post-traumatic hippocampal Neural Stem Cells response

Author

Francesco Chiani, Valentina Mastrorilli, Nicole Marchetti, Andrea Macioce, Chiara Nappi, Georgios Strimpakos, Miriam Pasquini, Alessia Gambadoro, Jonathan Isacco Battistini, Debora Cutuli, Laura Petrosini, Sara Marinelli, Raffaella Scardigli, and Stefano Farioli Vecchioli

Subjects

p21, Adult Neural Stem Cells, Adult hippocampal neurogenesis, Traumatic brain injury, Neural regeneration, Working memory, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Traumatic Brain Injury (TBI) represents one of the main causes of brain damage in young people and the elderly population with a very high rate of psycho-physical disability and death. TBI is characterized by extensive cell death, tissue damage and neuro-inflammation with a symptomatology that varies depending on the severity of the trauma from memory loss to a state of irreversible coma and death. Recently, preclinical studies on mouse models have demonstrated that the post-traumatic adult Neural Stem/Progenitor cells response could represent an excellent model to shed light on the neuro-reparative role of adult neurogenesis following damage. The cyclin-dependent kinase inhibitor p21Waf1/Cip1 plays a pivotal role in modulating the quiescence/activation balance of adult Neural Stem Cells (aNSCs) and in restraining the proliferation progression of progenitor cells. Based on these considerations, the aim of this work is to evaluate how the conditional ablation of p21Waf1/Cip1 in the aNSCS can alter the adult hippocampal neurogenesis in physiological and post-traumatic conditions. Methods We designed a novel conditional p21Waf1/Cip1 knock-out mouse model, in which the deletion of p21Waf1/Cip1 (referred as p21) is temporally controlled and occurs in Nestin-positive aNSCs, following administration of Tamoxifen. This mouse model (referred as p21 cKO mice) was subjected to Controlled Cortical Impact to analyze how the deletion of p21 could influence the post-traumatic neurogenic response within the hippocampal niche. Results The data demonstrates that the conditional deletion of p21 in the aNSCs induces a strong increase in activation of aNSCs as well as proliferation and differentiation of neural progenitors in the adult dentate gyrus of the hippocampus, resulting in an enhancement of neurogenesis and the hippocampal-dependent working memory. However, following traumatic brain injury, the increased neurogenic response of aNSCs in p21 cKO mice leads to a fast depletion of the aNSCs pool, followed by declined neurogenesis and impaired hippocampal functionality. Conclusions These data demonstrate for the first time a fundamental role of p21 in modulating the post-traumatic hippocampal neurogenic response, by the regulation of the proliferative and differentiative steps of aNSCs/progenitor populations after brain damage.

Published

2024

2. Sex-specific adipose tissue’s dynamic role in metabolic and inflammatory response following peripheral nerve injury

Author

Valentina Vacca, Claudia Rossi, Luisa Pieroni, Federica De Angelis, Giacomo Giacovazzo, Ilaria Cicalini, Domenico Ciavardelli, Flaminia Pavone, Roberto Coccurello, and Sara Marinelli

Subjects

Natural sciences, Biological sciences, Physiology, Molecular biology, Neuroscience, Systems biology, Science

Abstract

Summary: Epidemiological data and research highlight increased neuropathy and chronic pain prevalence among females, spanning metabolic and normometabolic contexts, including murine models. Prior findings demonstrated diverse immune and neuroimmune responses between genders in neuropathic pain (NeP), alongside distinct protein expression in sciatic nerves. This study unveils adipose tissue’s (AT) role in sex-specific NeP responses after peripheral nerve injury. Metabolic assessments, metabolomics, energy expenditure evaluations, AT proteomic analyses, and adipokine mobilization depict distinct AT reactions to nerve damage. Females exhibit altered lipolysis, fatty acid oxidation, heightened energy expenditure, and augmented steroids secretion affecting glucose and insulin metabolism. Conversely, male neuropathy prompts glycolysis, reduced energy expenditure, and lowered unsaturated fatty acid levels. Males’ AT promotes regenerative molecules, oxidative stress defense, and stimulates peroxisome proliferator-activated receptors (PPAR-γ) and adiponectin. This study underscores AT’s pivotal role in regulating gender-specific inflammatory and metabolic responses to nerve injuries, shedding light on female NeP susceptibility determinants.

Published

2023

3. From the Gender Gap to Neuroactive Steroids: Exploring Multiple Cases to Further Understand Neuropathic Pain

Author

Sara Marinelli and Roberto Coccurello

Subjects

n/a, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Neuropathic pain (NeuP) is still an intractable form of highly debilitating chronic pain, resulting from a lesion or disease of the somatosensory nervous system [...]

Published

2023

4. A Step Forward: About the Progresses Made in the Second Edition of the Special Issue 'The Multiple Mechanisms Underlying Neuropathic Pain'

Author

Sara Marinelli and Roberto Coccurello

Subjects

n/a, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The present editorial intends to comment on the contributions published in the second edition of the Special Issue (SI) “The Multiple Mechanisms Underlying Neuropathic Pain” [...]

Published

2023

5. Xeomin®, a Commercial Formulation of Botulinum Neurotoxin Type A, Promotes Regeneration in a Preclinical Model of Spinal Cord Injury

Author

Valentina Mastrorilli, Federica De Angelis, Valentina Vacca, Flaminia Pavone, Siro Luvisetto, and Sara Marinelli

Subjects

botulinum neurotoxin, spinal cord injury, regeneration, motor recovery, sciatic static index, neuropathic pain, Medicine

Abstract

Xeomin® is a commercial formulation of botulinum neurotoxin type A (BoNT/A) clinically authorized for treating neurological disorders, such as blepharospasm, cervical dystonia, limb spasticity, and sialorrhea. We have previously demonstrated that spinal injection of laboratory purified 150 kDa BoNT/A in paraplegic mice, after undergoing traumatic spinal cord injury (SCI), was able to reduce excitotoxic phenomena, glial scar, inflammation, and the development of neuropathic pain and facilitate regeneration and motor recovery. In the present study, as proof of concept in view of a possible clinical application, we studied the efficacy of Xeomin® in the same preclinical SCI model in which we highlighted the positive effects of lab-purified BoNT/A. Data comparison shows that Xeomin® induces similar pharmacological and therapeutic effects, albeit with less efficacy, to lab-purified BoNT/A. This difference, which can be improved by adjusting the dose, can be attributable to the different formulation and pharmacodynamics. Although the mechanism by which Xeomin® and laboratory purified BoNT/A induce functional improvement in paraplegic mice is still far from being understood, these results open a possible new scenario in treatment of SCI and are a stimulus for further research.

Published

2023

6. Role of Running-Activated Neural Stem Cells in the Anatomical and Functional Recovery after Traumatic Brain Injury in p21 Knock-Out Mice

Author

Jonathan Isacco Battistini, Valentina Mastrorilli, Vittoria Nicolis di Robilant, Daniele Saraulli, Sara Marinelli, and Stefano Farioli Vecchioli

Subjects

subventricular zone, adult neurogenesis, neural stem cells, traumatic brain injury, p21, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Traumatic brain injury (TBI) represents one of the most common worldwide causes of death and disability. Clinical and animal model studies have evidenced that TBI is characterized by the loss of both gray and white matter, resulting in brain atrophy and in a decrease in neurological function. Nowadays, no effective treatments to counteract TBI-induced neurological damage are available. Due to its complex and multifactorial pathophysiology (neuro-inflammation, cytotoxicity and astroglial scar formation), cell regeneration and survival in injured brain areas are strongly hampered. Recently, it has been proposed that adult neurogenesis may represent a new approach to counteract the post-traumatic neurodegeneration. In our laboratory, we have recently shown that physical exercise induces the long-lasting enhancement of subventricular (SVZ) adult neurogenesis in a p21 (negative regulator of neural progenitor proliferation)-null mice model, with a concomitant improvement of olfactory behavioral paradigms that are strictly dependent on SVZ neurogenesis. On the basis of this evidence, we have investigated the effect of running on SVZ neurogenesis and neurorepair processes in p21 knock-out mice that were subject to TBI at the end of a 12-day session of running. Our data indicate that runner p21 ko mice show an improvement in numerous post-trauma neuro-regenerative processes, including the following: (i) an increase in neuroblasts in the SVZ; (ii) an increase in the migration stream of new neurons from the SVZ to the damaged cortical region; (iii) an enhancement of new differentiating neurons in the peri-lesioned area; (iv) an improvement in functional recovery at various times following TBI. All together, these results suggest that a running-dependent increase in subventricular neural stem cells could represent a promising tool to improve the endogenous neuro-regenerative responses following brain trauma.

Published

2023

7. CXCR2 increases in ALS cortical neurons and its inhibition prevents motor neuron degeneration in vitro and improves neuromuscular function in SOD1G93A mice

Author

Valentina La Cognata, Elisabetta Golini, Rosario Iemmolo, Sara Balletta, Giovanna Morello, Carla De Rosa, Ambra Villari, Sara Marinelli, Valentina Vacca, Gabriele Bonaventura, Paola Dell'Albani, Eleonora Aronica, Fabio Mammano, Silvia Mandillo, and Sebastiano Cavallaro

Subjects

Amyotrophic lateral sclerosis, CXCR2, IL-8, iPSC, Motor neurons, Neurodegeneration, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Amyotrophic Lateral Sclerosis (ALS) is a progressive neurodegenerative disease characterized by depletion of motor neurons (MNs), for which effective medical treatments are still required. Previous transcriptomic analysis revealed the up-regulation of C-X-C motif chemokine receptor 2 (CXCR2)-mRNA in a subset of sporadic ALS patients and SOD1G93A mice. Here, we confirmed the increase of CXCR2 in human ALS cortex, and showed that CXCR2 is mainly localized in cell bodies and axons of cortical neurons. We also investigated the effects of reparixin, an allosteric inhibitor of CXCR2, in degenerating human iPSC-derived MNs and SOD1G93A mice. In vitro, reparixin rescued MNs from apoptotic cell death, preserving neuronal morphology, mitochondrial membrane potential and cytoplasmic membrane integrity, whereas in vivo it improved neuromuscular function of SOD1G93A mice. Altogether, these data suggest a role for CXCR2 in ALS pathology and support its pharmacological inhibition as a candidate therapeutic strategy against ALS at least in a specific subgroup of patients.

Published

2021

8. Editorial: Neuroinflammation and Neuroautoimmunity in Peripheral Neuropathies: Old Players, New Roles

Author

Sara Marinelli, Maria Maiarù, and Alessandra Colciago

Subjects

peripheral neurodegeneration, neuropathic pain, neuroimmune crosstalk, glia, autoimme diseases, innate immunity, Immunologic diseases. Allergy, RC581-607

Published

2021

9. Sex Differences in Neuropathy: The Paradigmatic Case of MetFormin

Author

Federica De Angelis, Valentina Vacca, Jessica Tofanicchio, Georgios Strimpakos, Giacomo Giacovazzo, Flaminia Pavone, Roberto Coccurello, and Sara Marinelli

Subjects

neuropathic pain, allodynia, metformin, sex differences, macrophages, autophagy, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

As a widely prescribed anti-diabetic drug, metformin has been receiving novel attention for its analgesic potential. In the study of the complex etiology of neuropathic pain (NeP), male and female individuals exhibit quite different responses characterized by higher pain sensitivity and greater NeP incidence in women. This “gender gap” in our knowledge of sex differences in pain processing strongly limits the sex-oriented treatment of patients suffering from NeP. Besides, the current investigation of the analgesic potential of metformin has not addressed the “gender gap” problem. Hence, this study focuses on metformin and sex-dependent analgesia in a murine model of NeP induced by chronic constriction injury of the sciatic nerve. We investigated sexual dimorphism in signaling pathways involved by 7 days of metformin administration, such as changes in AMP-activated protein kinase and the positive regulation of autophagy machinery, discovering that metformin affected in a sexually dimorphic manner the immunological and inflammatory response to nerve lesion. These effects were complemented by morphological and adaptive changes occurring after peripheral nerve injury. Altogether these data can contribute to explaining a number of potential mechanisms responsible for the complete recovery from NeP found in male mice, as opposed to the failure of long-lasting recovery in female animals.

Published

2022

10. Hypoalbuminemia and Risk of Portal Vein Thrombosis in Cirrhosis

Author

Giuseppe, Palasciano, Felicia, D’Alitto, Ostilio, Palmieri Vincenzo, Daniela, Santovito, Dario, Di Michele, Giuseppe, Croce, David, Sacerdoti, Silvia, Brocco, Silvano, Fasolato, Lara, Cecchetto, Giancarlo, Bombonato, Michele, Bertoni, Tea, Restuccia, Paola, Andreozzi, Livia, Liguori Maria, Francesco, Perticone, Benedetto, Caroleo, Maria, Perticone, Orietta, Staltari, Roberto, Manfredini, Alfredo, De Giorgi, Maurizio, Averna, Antonina, Giammanco, Alessandro, Granito, Irene, Pettinari, Sara, Marinelli, Luigi, Bolondi, Lorenzo, Falsetti, Aldo, Salvi, Emanuele, Durante-Mangoni, Flavio, Cesaro, Vincenza, Farinaro, Enrico, Ragone, Ignazio, Morana, Angelo, Andriulli, Antonio, Ippolito, Angelo, Iacobellis, Grazia, Niro, Antonio, Merla, Giovanni, Raimondo, Sergio, Maimone, Irene, Cacciola, Doriana, Varvara, Davide, Drenaggi, Silvia, Staffolani, Antonio, Picardi, Umberto, Vespasiani-Gentilucci, Giovanni, Galati, Paolo, Gallo, Giovanni, Davì, Cosima, Schiavone, Francesca, Santilli, Claudio, Tana, Anna, Licata, Maurizio, Soresi, Battista, Bianchi Giovanni, Isabella, Carderi, Antonio, Pinto, Antonino, Tuttolomondo, Giovanni, Ferrari, Paolo, Gresele, Tiziana, Fierro, Olivia, Morelli, Giacomo, Laffi, Giulio, Romanelli Roberto, Umberto, Arena, Cristina, Stasi, Antonio, Gasbarrini, Matteo, Gargovich, Assunta, Zocco Maria, Laura, Riccardi, Elena, Ainora Maria, William, Capeci, Pio, Martino Giuseppe, Lorenzo, Nobili, Maurizio, Cavallo, Pierluigi, Frugiuele, Antonio, Greco, Antonello, Pietrangelo, Paolo, Ventura, Chiara, Cuoghi, Matteo, Marcacci, Gaetano, Serviddio, Gianluigi, Vendemiale, Rosanna, Villani, Ruggiero, Gargano, Gianpaolo, Vidili, Valentina, Di Cesare, Maristella, Masala, Giuseppe, Delitala, Pietro, Invernizzi, Giovanni, Di Minno, Antonella, Tufano, Francesco, Purrello, Graziella, Privitera, Alessandra, Forgione, Valentina, Curigliano, Marco, Senzolo, Kryssia Isabel, Rodríguez-Castro, Gianluigi, Giannelli, Carla, Serra, Sergio, Neri, Pietro, Pignataro, Mario, Rizzetto, Wilma, Debernardi Venon, Gianluca, Svegliati Baroni, Gaetano, Bergamaschi, Michela, Masotti, Filippo, Costanzo, Roberto, Corazza Gino, Hugh, Caldwell Stephen, Francesco, Angelico, Ben Maria, Del, Laura, Napoleone, Licia, Polimeni, Marco, Proietti, Valeria, Raparelli, Francesco, Romiti Giulio, Eleonora, Ruscio, Andrea, Severoni, Giovanni, Talerico, Filippo, Toriello, Annarita, Vestri, Cangemi, Roberto, Raparelli, Valeria, Talerico, Giovanni, Basili, Stefania, and Violi, Francesco

Published

2024

11. Supplementary Tables from MiR-30e-3p Influences Tumor Phenotype through MDM2/TP53 Axis and Predicts Sorafenib Resistance in Hepatocellular Carcinoma

Author

Francesca Fornari, Luigi Bolondi, Massimo Negrini, Fabio Piscaglia, Matteo Cescon, Matteo Ravaioli, Francesco Vasuri, Francesca Benevento, Sara Marinelli, Sabrina De Carolis, Elisa Callegari, Andrea Casadei-Gardini, Manuela Ferracin, Santina Quarta, Catia Giovannini, Martina Gagliardi, Daniela Pollutri, and Laura Gramantieri

Abstract

ST1: Discovery and validation surgical patient cohorts. ST2: Advanced HCC patient cohort. ST3: Primer sequences for luciferase assay. ST4: Primer sequences for PCR and qPCR. ST5: Antibodies. ST6: Probe sequences for EMSA. ST7: Deregulated miR-30 family members in rat model.

Published

2023

12. Supplementary Tables and Figure Legends from In Hepatocellular Carcinoma miR-221 Modulates Sorafenib Resistance through Inhibition of Caspase-3–Mediated Apoptosis

Author

Laura Gramantieri, Luigi Bolondi, Massimo Negrini, Matteo Ravaioli, Matteo Cescon, Catia Giovannini, Marzia Galassi, Maurizio Baldassarre, Elisa Callegari, Veronica Salvatore, Michele Baglioni, Marco Baron Toaldo, Giorgia Marisi, Andrea Casadei Gardini, Sara Marinelli, Tiziana La Bella, Clarissa Patrizi, Daniela Pollutri, and Francesca Fornari

Abstract

Supplementary Table S1. Characteristics of surgical HCC patients analysed in this study. Supplementary Table S2. Patients assessed for circulating miR-221. Supplementary Table S3. Primer sequences and PCR conditions for the cloning experiment. Supplementary Table S4. Primer sequences and PCR conditions. Supplementary Table S5. Antibodies used in Western blot analysis.

Published

2023

13. Supplementary Figure S2 from In Hepatocellular Carcinoma miR-221 Modulates Sorafenib Resistance through Inhibition of Caspase-3–Mediated Apoptosis

Author

Laura Gramantieri, Luigi Bolondi, Massimo Negrini, Matteo Ravaioli, Matteo Cescon, Catia Giovannini, Marzia Galassi, Maurizio Baldassarre, Elisa Callegari, Veronica Salvatore, Michele Baglioni, Marco Baron Toaldo, Giorgia Marisi, Andrea Casadei Gardini, Sara Marinelli, Tiziana La Bella, Clarissa Patrizi, Daniela Pollutri, and Francesca Fornari

Abstract

Figure S2. Histopathological images of HCC nodules arisen in DEN-treated rats following Sorafenib administration. Nodules that responded to Sorafenib displayed large necrotic areas.

Published

2023

14. Supplementary Material from MiR-30e-3p Influences Tumor Phenotype through MDM2/TP53 Axis and Predicts Sorafenib Resistance in Hepatocellular Carcinoma

Author

Francesca Fornari, Luigi Bolondi, Massimo Negrini, Fabio Piscaglia, Matteo Cescon, Matteo Ravaioli, Francesco Vasuri, Francesca Benevento, Sara Marinelli, Sabrina De Carolis, Elisa Callegari, Andrea Casadei-Gardini, Manuela Ferracin, Santina Quarta, Catia Giovannini, Martina Gagliardi, Daniela Pollutri, and Laura Gramantieri

Abstract

Microarray analysis, cell transfection and infection, cell proliferation assay, clonogenic and sphere formation assays, TP53 hypothetical binding sites.

Published

2023

15. Supplementary Figures from MiR-30e-3p Influences Tumor Phenotype through MDM2/TP53 Axis and Predicts Sorafenib Resistance in Hepatocellular Carcinoma

Author

Francesca Fornari, Luigi Bolondi, Massimo Negrini, Fabio Piscaglia, Matteo Cescon, Matteo Ravaioli, Francesco Vasuri, Francesca Benevento, Sara Marinelli, Sabrina De Carolis, Elisa Callegari, Andrea Casadei-Gardini, Manuela Ferracin, Santina Quarta, Catia Giovannini, Martina Gagliardi, Daniela Pollutri, and Laura Gramantieri

Abstract

This file contains Supplementary Figures. SF1: Correlations between miR-30 family member in human tissues. SF2: Microarray analysis of miRNAs in the rat model. SF3: miR-30e locus and p53 regulation. SF4: MDM2 regulation by miR-30e-3p in HCC cells. SF5: MiR-30e-3p regulates cell growth and cell invasion in HCC cells. SF6: MiR-30e-3p regulates stem cell phenotype in HCC cells. SF7: MiR-30e-3p regulates drug resistance in TP53 deleted HepG2 cells. SF8: MiR-30e-3p regulates drug resistance in TP53 mutated Huh-7 cells. SF9: Circulating miR-30e-3p levels predicts sorafenib response in HCC preclinical models.

Published

2023

16. Data from MiR-30e-3p Influences Tumor Phenotype through MDM2/TP53 Axis and Predicts Sorafenib Resistance in Hepatocellular Carcinoma

Author

Francesca Fornari, Luigi Bolondi, Massimo Negrini, Fabio Piscaglia, Matteo Cescon, Matteo Ravaioli, Francesco Vasuri, Francesca Benevento, Sara Marinelli, Sabrina De Carolis, Elisa Callegari, Andrea Casadei-Gardini, Manuela Ferracin, Santina Quarta, Catia Giovannini, Martina Gagliardi, Daniela Pollutri, and Laura Gramantieri

Abstract

The molecular background of hepatocellular carcinoma (HCC) is highly heterogeneous, and biomarkers predicting response to treatments are an unmet clinical need. We investigated miR-30e-3p contribution to HCC phenotype and response to sorafenib, as well as the mutual modulation of TP53/MDM2 pathway, in HCC tissues and preclinical models. MiR-30e-3p was downregulated in human and rat HCCs, and its downregulation associated with TP53 mutations. TP53 contributed to miR-30e-3p biogenesis, and MDM2 was identified among its target genes, establishing an miR-30e-3p/TP53/MDM2 feedforward loop and accounting for miR-30e-3p dual role based on TP53 status. EpCAM, PTEN, and p27 were demonstrated as miR-30e-3p additional targets mediating its contribution to stemness and malignant features. In a preliminary cohort of patients with HCC treated with sorafenib, increased miR-30e-3p circulating levels predicted the development of resistance. In conclusion, molecular background dictates miR-30e-3p dual behavior in HCC. Mdm2 targeting plays a predominant tumor suppressor function in wild-type TP53 contexts, whereas other targets such as PTEN, p27, and EpCAM gain relevance and mediate miR-30e-3p oncogenic role in nonfunctional TP53 backgrounds. Increased circulating levels of miR-30e-3p predict the development of sorafenib resistance in a preliminary series of patients with HCC and deserve future investigations.Significance:The dual role of miR-30e-3p in HCC clarifies how the molecular context dictates the tumor suppressor or oncogenic function played by miRNAs.

Published

2023

17. Data from In Hepatocellular Carcinoma miR-221 Modulates Sorafenib Resistance through Inhibition of Caspase-3–Mediated Apoptosis

Author

Laura Gramantieri, Luigi Bolondi, Massimo Negrini, Matteo Ravaioli, Matteo Cescon, Catia Giovannini, Marzia Galassi, Maurizio Baldassarre, Elisa Callegari, Veronica Salvatore, Michele Baglioni, Marco Baron Toaldo, Giorgia Marisi, Andrea Casadei Gardini, Sara Marinelli, Tiziana La Bella, Clarissa Patrizi, Daniela Pollutri, and Francesca Fornari

Abstract

Purpose: The aberrant expression of miR-221 is a hallmark of human cancers, including hepatocellular carcinoma (HCC), and its involvement in drug resistance, together with a proved in vivo efficacy of anti-miR-221 molecules, strengthen its role as an attractive target candidate in the oncologic field. The discovery of biomarkers predicting the response to treatments represents a clinical challenge in the personalized treatment era. This study aimed to investigate the possible role of miR-221 as a circulating biomarker in HCC patients undergoing sorafenib treatment as well as to evaluate its contribution to sorafenib resistance in advanced HCC.Experimental Design: A chemically induced HCC rat model and a xenograft mouse model, together with HCC-derived cell lines were employed to analyze miR-221 modulation by Sorafenib treatment. Data from the functional analysis were validated in tissue samples from surgically resected HCCs. The variation of circulating miR-221 levels in relation to Sorafenib treatment were assayed in the animal models and in two independent cohorts of patients with advanced HCC.Results: MiR-221 over-expression was associated with Sorafenib resistance in two HCC animal models and caspase-3 was identified as its target gene, driving miR-221 anti-apoptotic activity following Sorafenib administration. Lower pre-treatment miR-221 serum levels were found in patients subsequently experiencing response to Sorafenib and an increase of circulating miR-221 at the two months assessment was observed in responder patients.Conclusions: MiR-221 might represent a candidate biomarker of likelihood of response to Sorafenib in HCC patients to be tested in future studies. Caspase-3 modulation by miR-221 participates to Sorafenib resistance. Clin Cancer Res; 23(14); 3953–65. ©2017 AACR.

Published

2023

18. Endocannabinoid signaling in microglia

Author

Sara Marinelli, Maria Cristina Marrone, Marina Di Domenico, and Silvia Marinelli

Subjects

Cellular and Molecular Neuroscience, Mice, Neuroprotective Agents, Neurology, Animals, Mice, Transgenic, Microglia, Endocannabinoids, Signal Transduction

Abstract

Microglia, the innate immune cells of the central nervous system (CNS), execute their sentinel, housekeeping and defense functions through a panoply of genes, receptors and released cytokines, chemokines and neurotrophic factors. Moreover, microglia functions are closely linked to the constant communication with other cell types, among them neurons. Depending on the signaling pathway and type of stimuli involved, the outcome of microglia operation can be neuroprotective or neurodegenerative. Accordingly, microglia are increasingly becoming considered cellular targets for therapeutic intervention. Among signals controlling microglia activity, the endocannabinoid (EC) system has been shown to exert a neuroprotective role in many neurological diseases. Like neurons, microglia express functional EC receptors and can produce and degrade ECs. Interestingly, boosting EC signaling leads to an anti-inflammatory and neuroprotective microglia phenotype. Nonetheless, little evidence is available on the microglia-mediated therapeutic effects of EC compounds. This review focuses on the EC signals acting on the CNS microglia in physiological and pathological conditions, namely on the CB1R, CB2R and TRPV1-mediated regulation of microglia properties. It also provides new evidence, which strengthens the understanding of mechanisms underlying the control of microglia functions by ECs. Given the broad expression of the EC system in glial and neuronal cells, the resulting picture is the need for in vivo studies in transgenic mouse models to dissect the contribution of EC microglia signaling in the neuroprotective effects of EC-derived compounds.

Published

2022

19. Editorial: Neuroinflammation and Neuroautoimmunity in Peripheral Neuropathies: Old Players, New Roles

Author

Maria Maiarù, Alessandra Colciago, and Sara Marinelli

Subjects

neuropathic pain, Innate immune system, business.industry, glia, Immunology, Chronic pain, biomarkers, RC581-607, medicine.disease, Inflammatory pain, peripheral neurodegeneration, Peripheral, chronic and inflammatory pain, Neuropathic pain, medicine, autoimme diseases, Immunology and Allergy, Immunologic diseases. Allergy, business, neuroimmune crosstalk, innate immunity, Neuroinflammation

Published

2021