Author: "Donzelli E" - Searchworks@Jio Institute Digital Library Search Results

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101. Modulation of MAPKs during neuronal differentiation of rat mesenchymal stem cells

Author: Vigano', M, Foudah, D, Donzelli, E, Salvade', A, Scuteri, A, Nicolini, G, Miloso, M, Tredici, G, VIGANO', MARIELE, FOUDAH, DANA, DONZELLI, ELISABETTA, SALVADE', AGNESE CLARA, SCUTERI, ARIANNA, NICOLINI, GABRIELLA, MILOSO, MARIAROSARIA, TREDICI, GIOVANNI, Vigano', M, Foudah, D, Donzelli, E, Salvade', A, Scuteri, A, Nicolini, G, Miloso, M, Tredici, G, VIGANO', MARIELE, FOUDAH, DANA, DONZELLI, ELISABETTA, SALVADE', AGNESE CLARA, SCUTERI, ARIANNA, NICOLINI, GABRIELLA, MILOSO, MARIAROSARIA, and TREDICI, GIOVANNI
Published: 2006

102. Adult mesenchymal stem cells action on dorsal root ganglia explants survival and differentiation

Author: Scuteri, A, Cassetti, A, Miloso, M, Donzelli, E, Salvade', A, Vigano', M, Tredici, G, SCUTERI, ARIANNA, CASSETTI, ARIANNA, MILOSO, MARIAROSARIA, DONZELLI, ELISABETTA, SALVADE', AGNESE CLARA, VIGANO', MARIELE, TREDICI, GIOVANNI, Scuteri, A, Cassetti, A, Miloso, M, Donzelli, E, Salvade', A, Vigano', M, Tredici, G, SCUTERI, ARIANNA, CASSETTI, ARIANNA, MILOSO, MARIAROSARIA, DONZELLI, ELISABETTA, SALVADE', AGNESE CLARA, VIGANO', MARIELE, and TREDICI, GIOVANNI
Published: 2006

103. Development of an alveolar bone regeneration protocol with mesenchyl stem cells for the therapy of severe bone resorption in periodontal disease

Author: Carini, F, Salvade', A, Belotti, D, Donzelli, E, Mimo, P, D’Amico, G, Biagi, E, CARINI, FABRIZIO, SALVADE', AGNESE CLARA, BELOTTI, DANIELA, DONZELLI, ELISABETTA, BIAGI, ETTORE, Carini, F, Salvade', A, Belotti, D, Donzelli, E, Mimo, P, D’Amico, G, Biagi, E, CARINI, FABRIZIO, SALVADE', AGNESE CLARA, BELOTTI, DANIELA, DONZELLI, ELISABETTA, and BIAGI, ETTORE
Published: 2006

104. Neuronal differentiation of rat mesenchymal stem cells

Author: Donzelli, E, Vigano', M, Foudah, D, Tredici, G, DONZELLI, ELISABETTA, VIGANO', MARIELE, FOUDAH, DANA, TREDICI, GIOVANNI, Donzelli, E, Vigano', M, Foudah, D, Tredici, G, DONZELLI, ELISABETTA, VIGANO', MARIELE, FOUDAH, DANA, and TREDICI, GIOVANNI
Published: 2005

105. Adult mesenchymal stem cells effect on dorsal root ganglia neurons survival and differentiation

Author: Scuteri, A, Miloso, M, Donzelli, E, Salvade', A, Vigano', M, Galbiati, S, Ferrarese, C, Tredici, G, SCUTERI, ARIANNA, MILOSO, MARIAROSARIA, DONZELLI, ELISABETTA, SALVADE', AGNESE CLARA, VIGANO', MARIELE, FERRARESE, CARLO, TREDICI, GIOVANNI, Scuteri, A, Miloso, M, Donzelli, E, Salvade', A, Vigano', M, Galbiati, S, Ferrarese, C, Tredici, G, SCUTERI, ARIANNA, MILOSO, MARIAROSARIA, DONZELLI, ELISABETTA, SALVADE', AGNESE CLARA, VIGANO', MARIELE, FERRARESE, CARLO, and TREDICI, GIOVANNI
Published: 2005

106. Rat mesenchymal stem cells on collagen scaffold: SEM-EDX evaluation of calcium deposition

Author: Donzelli, E, Salvade', A, Vigano', M, Mimo, P, Miloso, M, Papagna, R, Baldoni, M, Tredici, G, DONZELLI, ELISABETTA, SALVADE', AGNESE CLARA, VIGANO', MARIELE, MILOSO, MARIAROSARIA, PAPAGNA, RUGGERO, BALDONI, MARCO GIOVANNI, TREDICI, GIOVANNI, Donzelli, E, Salvade', A, Vigano', M, Mimo, P, Miloso, M, Papagna, R, Baldoni, M, Tredici, G, DONZELLI, ELISABETTA, SALVADE', AGNESE CLARA, VIGANO', MARIELE, MILOSO, MARIAROSARIA, PAPAGNA, RUGGERO, BALDONI, MARCO GIOVANNI, and TREDICI, GIOVANNI
Published: 2005

107. The sustained ERK1 and ERK2 phosphorylation in dissociated from nuclear localization and uncoupled from Elk-1 phosphorylation during RA-induced neuronal differentiation of SH-SY5Y cells

Author: Miloso, M, Galbiati, S, Villa, D, Donzelli, E, Viganò, M, Tredici, G, MILOSO, MARIAROSARIA, VILLA, DANIELA, DONZELLI, ELISABETTA, TREDICI, GIOVANNI, Miloso, M, Galbiati, S, Villa, D, Donzelli, E, Viganò, M, Tredici, G, MILOSO, MARIAROSARIA, VILLA, DANIELA, DONZELLI, ELISABETTA, and TREDICI, GIOVANNI
Published: 2004

108. Mechanisms of protection by low-dose cisplatin in paclitaxel-induced apoptosis in human neuroblastoma cell line SH-SY5Y

Author: Villa, D, Rigolio, R, Miloso, M, Donzelli, E, Salvade', A, Nicolini, G, Villa, A, Cavaletti, G, Tredici, G, VILLA, DANIELA, RIGOLIO, ROBERTA, MILOSO, MARIAROSARIA, DONZELLI, ELISABETTA, SALVADE', AGNESE CLARA, NICOLINI, GABRIELLA, VILLA, ANTONELLO, CAVALETTI, GUIDO ANGELO, TREDICI, GIOVANNI, Villa, D, Rigolio, R, Miloso, M, Donzelli, E, Salvade', A, Nicolini, G, Villa, A, Cavaletti, G, Tredici, G, VILLA, DANIELA, RIGOLIO, ROBERTA, MILOSO, MARIAROSARIA, DONZELLI, ELISABETTA, SALVADE', AGNESE CLARA, NICOLINI, GABRIELLA, VILLA, ANTONELLO, CAVALETTI, GUIDO ANGELO, and TREDICI, GIOVANNI
Published: 2004

109. Neurotoxicity of platinum compounds: comparison of the effects of cisplatin and oxaliplatin on the human neuroblastoma cell line SH-SY5Y

Author: Donzelli, E, Carfì, M, Miloso, M, Strada, A, Galbiati, S, Bayssas, M, Griffon Etienne, G, Cavaletti, G, Petruccioli, M, Tredici, G, DONZELLI, ELISABETTA, MILOSO, MARIAROSARIA, CAVALETTI, GUIDO ANGELO, TREDICI, GIOVANNI, Petruccioli, MG, Donzelli, E, Carfì, M, Miloso, M, Strada, A, Galbiati, S, Bayssas, M, Griffon Etienne, G, Cavaletti, G, Petruccioli, M, Tredici, G, DONZELLI, ELISABETTA, MILOSO, MARIAROSARIA, CAVALETTI, GUIDO ANGELO, TREDICI, GIOVANNI, and Petruccioli, MG
Abstract: The main dose-limiting side effect of cancer treatment with platinum compounds is peripheral neurotoxicity. To investigate the intracellular mechanisms of platinum drugs neurotoxicity we have studied the effects of cisplatin and oxaliplatin on the human neuroblastoma cell line SH-SY5Y. Both platinum compounds are toxic causing cellular death by inducing apoptosis but oxaliplatin is less neurotoxic than cisplatin. The study of the proteins involved in the intracellular transduction pathways that may cause apoptotic death, revealed a very similar pattern of changes after exposure to cisplatin or oxaliplatin. In particular, as emonstrated by densitometric analysis, after exposure to both platinum compounds the total amount of the anti-apoptotic protein Bcl-2 was significantly reduced. Conversely, the amount of the pro-apoptotic protein p53 significantly increased. Caspases 3 and 7 were activated, but their activation was a late event, indicating a secondary role in the apoptotic process. Among the mitogen activated protein kinases, only the p38 protein was activated (phosphorylated) early enough to have a possible role in inducing apoptosis, possibly through p53 stabilization. The results of the present study and the data of the literature demonstrate that the ways in which cisplatin and oxaliplatin are neurotoxic are very similar and include not only DNA damage, but also the modulation of specific molecules involved in regulating the cellular equilibrium between apoptotic death and the cell cycle.
Published: 2004

110. Retinoic acid-induced neuritogenesis of human neuroblastoma SH-SY5Y cells is ERK independent and PKC dependent

Author: Miloso, M, Villa, D, Crimi, M, Galbiati, S, Donzelli, E, Nicolini, G, Tredici, G, MILOSO, MARIAROSARIA, VILLA, DANIELA, DONZELLI, ELISABETTA, TREDICI, GIOVANNI, NICOLINI, GABRIELLA, Miloso, M, Villa, D, Crimi, M, Galbiati, S, Donzelli, E, Nicolini, G, Tredici, G, MILOSO, MARIAROSARIA, VILLA, DANIELA, DONZELLI, ELISABETTA, TREDICI, GIOVANNI, and NICOLINI, GABRIELLA
Abstract: Retinoic acid (RA), an active metabolite of vitamin A, is a natural morphogen involved in development and differentiation of the nervous system. To elucidate signaling mechanisms involved in RA-induced neuritogenesis, we used human neuroblastoma SH-SY5Y cells, an established in vitro model for studying RA action, to examine the role of extracellular signal-regulated kinase (ERK) 1 and 2 in RA-induced neuritogenesis and cell survival. From immunoblotting experiments, we observed that RA induced delayed but persistent ERK1 and ERK2 phosphorylation (until 96 hr) that was reduced significantly by the specific mitogen-activated protein kinase (MAPK)/ERK kinase (MEK) inhibitor U0126. For the subsequent studies we chose 24 hr as the reference time. Inhibition of ERK activation did not affect RA-induced neuritogenesis (percentage of neurite-bearing cells and neurite length) but significantly reduced cell survival. In addition we analyzed the signaling pathway that mediates ERK activation. Our results suggest that RA-induced ERK phosphorylation does not follow the classic Raf kinase-dependent pathway. Protein kinase C (PKC) and phosphatidylinositol 3-kinase (PI 3-K) are possible alternative kinases involved in the ERK signaling pathway. In fact, in the presence of the specific PKC inhibitor GF 109203X, or the specific PI 3-K inhibitor wortmannin, we observed a significant dose-dependent reduction in ERK phosphorylation. RA-induced neuritogenesis and cell survival were reduced by GF 109203X in a concentration-dependent manner. These results suggest that rather than ERK1 and ERK2, it is PKC that plays an important role during early phases of RA-induced neuritogenesis
Published: 2004

111. Oxaliplatin toxicity in dorsal root ganglia explants and neuron dissociated cultures

Author: Scuteri, A, Nicolini, G, Donzelli, E, Bossi, M, Miloso, M, Cavaletti, G, Tredici, G, SCUTERI, ARIANNA, NICOLINI, GABRIELLA, DONZELLI, ELISABETTA, BOSSI, MARIO, MILOSO, MARIAROSARIA, CAVALETTI, GUIDO ANGELO, TREDICI, GIOVANNI, Scuteri, A, Nicolini, G, Donzelli, E, Bossi, M, Miloso, M, Cavaletti, G, Tredici, G, SCUTERI, ARIANNA, NICOLINI, GABRIELLA, DONZELLI, ELISABETTA, BOSSI, MARIO, MILOSO, MARIAROSARIA, CAVALETTI, GUIDO ANGELO, and TREDICI, GIOVANNI
Published: 2003

112. Induction of neurite outgrowth in SH-SY5Y cells by retinoic acid is ERK-independent and PKC-dependent

Author: Donzelli, E, Villa, D, Galbiati, S, DONZELLI, ELISABETTA, VILLA, DANIELA, Galbiati, S., Donzelli, E, Villa, D, Galbiati, S, DONZELLI, ELISABETTA, VILLA, DANIELA, and Galbiati, S.
Published: 2003

113. Platinum compounds induce apoptosis in human neuroblastoma SH-SY5Y cells by acting on specific molecules involved in the apoptotic tranduction pathway

Author: Donzelli, E, Carfì, M, Miloso, M, Strada, A, Galbiati, S, Cavaletti, G, Tredici, G, DONZELLI, ELISABETTA, MILOSO, MARIAROSARIA, CAVALETTI, GUIDO ANGELO, TREDICI, GIOVANNI, Donzelli, E, Carfì, M, Miloso, M, Strada, A, Galbiati, S, Cavaletti, G, Tredici, G, DONZELLI, ELISABETTA, MILOSO, MARIAROSARIA, CAVALETTI, GUIDO ANGELO, and TREDICI, GIOVANNI
Published: 2003

114. Molecular mechanisms involved in retinoic acid induction of neuronal differentiation of human neuroblastoma SH-SY5Y cells

Author: Miloso, M, Villa, D, Galbiati, S, Donzelli, E, Sala, C, Tredici, G, MILOSO, MARIAROSARIA, VILLA, DANIELA, DONZELLI, ELISABETTA, TREDICI, GIOVANNI, Miloso, M, Villa, D, Galbiati, S, Donzelli, E, Sala, C, Tredici, G, MILOSO, MARIAROSARIA, VILLA, DANIELA, DONZELLI, ELISABETTA, and TREDICI, GIOVANNI
Published: 2003

115. Resveratrol protects human neuroblastoma SH-SY5Y from paclitaxel-induced apoptosis influencing apoptotic pathways and cell cycle machinery

Author: Rigolio, R, Donzelli, E, Strada, A, Nicolini, G, Tredici, G, RIGOLIO, ROBERTA, DONZELLI, ELISABETTA, NICOLINI, GABRIELLA, TREDICI, GIOVANNI, Rigolio, R, Donzelli, E, Strada, A, Nicolini, G, Tredici, G, RIGOLIO, ROBERTA, DONZELLI, ELISABETTA, NICOLINI, GABRIELLA, and TREDICI, GIOVANNI
Published: 2002

116. Resveratrol protects human neuroblastoma SH-SY5Y from paclitaxel-induced apoptosis

Author: Rigolio, R, Nicolini, G, Miloso, M, Scuteri, A, Donzelli, E, Tredici, G, RIGOLIO, ROBERTA, NICOLINI, GABRIELLA, MILOSO, MARIAROSARIA, SCUTERI, ARIANNA, DONZELLI, ELISABETTA, TREDICI, GIOVANNI, Rigolio, R, Nicolini, G, Miloso, M, Scuteri, A, Donzelli, E, Tredici, G, RIGOLIO, ROBERTA, NICOLINI, GABRIELLA, MILOSO, MARIAROSARIA, SCUTERI, ARIANNA, DONZELLI, ELISABETTA, and TREDICI, GIOVANNI
Published: 2001

117. Neurotrophin effect on the SH-SY5Y human neuroblastoma (HN) model of CDDP-induced neurotoxicity

Author: Nicolini, G, Cavaletti, G, Miloso, M, Donzelli, E, Galbiati, S, Di Silvestro, A, Braga, M, Marmiroli, P, Tredici, G, NICOLINI, GABRIELLA, CAVALETTI, GUIDO ANGELO, MILOSO, MARIAROSARIA, DONZELLI, ELISABETTA, MARMIROLI, PAOLA LORENA, TREDICI, GIOVANNI, Nicolini, G, Cavaletti, G, Miloso, M, Donzelli, E, Galbiati, S, Di Silvestro, A, Braga, M, Marmiroli, P, Tredici, G, NICOLINI, GABRIELLA, CAVALETTI, GUIDO ANGELO, MILOSO, MARIAROSARIA, DONZELLI, ELISABETTA, MARMIROLI, PAOLA LORENA, and TREDICI, GIOVANNI
Published: 2001

118. Neurotrophins: effect on cisplatin-induced cytotoxicity and neurotoxicity in SH-SY5Y cells

Author: Nicolini, G, Cavaletti, G, Miloso, M, Donzelli, E, Galbiati, S, Di Silvestro, A, Braga, M, Marmiroli, P, Tredici, G, NICOLINI, GABRIELLA, CAVALETTI, GUIDO ANGELO, MILOSO, MARIAROSARIA, DONZELLI, ELISABETTA, MARMIROLI, PAOLA LORENA, TREDICI, GIOVANNI, Nicolini, G, Cavaletti, G, Miloso, M, Donzelli, E, Galbiati, S, Di Silvestro, A, Braga, M, Marmiroli, P, Tredici, G, NICOLINI, GABRIELLA, CAVALETTI, GUIDO ANGELO, MILOSO, MARIAROSARIA, DONZELLI, ELISABETTA, MARMIROLI, PAOLA LORENA, and TREDICI, GIOVANNI
Published: 2001

119. Paclitaxel neurotoxicity: anti-apoptotic effect of resveratrol

Author: Miloso, M, Rigolio, R, Nicolini, G, Crimi, M, Donzelli, E, Di Silvestro, A, Cavaletti, G, Tredici, G, MILOSO, MARIAROSARIA, RIGOLIO, ROBERTA, NICOLINI, GABRIELLA, DONZELLI, ELISABETTA, CAVALETTI, GUIDO ANGELO, TREDICI, GIOVANNI, Miloso, M, Rigolio, R, Nicolini, G, Crimi, M, Donzelli, E, Di Silvestro, A, Cavaletti, G, Tredici, G, MILOSO, MARIAROSARIA, RIGOLIO, ROBERTA, NICOLINI, GABRIELLA, DONZELLI, ELISABETTA, CAVALETTI, GUIDO ANGELO, and TREDICI, GIOVANNI
Published: 2000

120. Intracellular pathway involved in ERK1 and ERK2 activation in RA-treated SH-SY5Y human neuroblastoma cell line

Author: Tredici, G, Crimi, M, Nicolini, G, Galbiati, S, Rigolio, R, Donzelli, E, Di Silvestro, A, Cavaletti, G, Miloso, M, TREDICI, GIOVANNI, NICOLINI, GABRIELLA, RIGOLIO, ROBERTA, DONZELLI, ELISABETTA, CAVALETTI, GUIDO ANGELO, MILOSO, MARIAROSARIA, Tredici, G, Crimi, M, Nicolini, G, Galbiati, S, Rigolio, R, Donzelli, E, Di Silvestro, A, Cavaletti, G, Miloso, M, TREDICI, GIOVANNI, NICOLINI, GABRIELLA, RIGOLIO, ROBERTA, DONZELLI, ELISABETTA, CAVALETTI, GUIDO ANGELO, and MILOSO, MARIAROSARIA
Published: 2000

121. Mesenchymal stem cells cultured on a collagen scaffold: In vitro osteogenic differentiation

Author: Donzelli, E., primary, Salvadè, A., additional, Mimo, P., additional, Viganò, M., additional, Morrone, M., additional, Papagna, R., additional, Carini, F., additional, Zaopo, A., additional, Miloso, M., additional, Baldoni, M., additional, and Tredici, G., additional
Published: 2007
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122. Abstracts of the 8th Meeting of the Italian Peripheral Nerve Study Group: 71

Author: Donzelli, E, primary, Carfì, M, additional, Miloso, M, additional, Strada, A, additional, Galbiati, S, additional, Cavaletti, G, additional, and Tredici, G, additional
Published: 2003
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123. Neurotrophin Effect On The SH‐SY5Y Human Neuroblastoma (HN) MODEL Of Cddp‐Induced Neurotoxicity

Author: Nicolini, G, primary, Cavaletti, G, additional, Miloso, M, additional, Donzelli, E, additional, Galbiati, S, additional, Di Silvestro, A, additional, Braga, M, additional, Marmiroli, P, additional, and Tredici, G., additional
Published: 2001
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124. PACLITAXEL NEUROTOXICITY: ANTI‐APOPTOTIC EFFECT OF RESVERATROL

Author: Miloso, M., primary, Rigolio, R., additional, Nicolini, G., additional, Crimi, M., additional, Donzelli, E., additional, Di Silvestro, A., additional, Cavaletti, G., additional, and Tredici, G, additional
Published: 2000
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125. Artificial apolipoprotein corona enables nanoparticle brain targeting

Author: Maurizio Ricci, Roberta Dal Magro, Barbara Albertini, Paolo Blasi, Elisabetta Donzelli, Giulio Sancini, Silvia Beretta, Roberta Rigolio, Alessia Chiorazzi, Dal Magro, R, Albertini, B, Beretta, S, Rigolio, R, Donzelli, E, Chiorazzi, A, Ricci, M, Blasi, P, Sancini, G, Dal Magro R., Albertini B., Beretta S., Rigolio R., Donzelli E., Chiorazzi A., Ricci M., Blasi P., and Sancini G.
Subjects: 0301 basic medicine, Male, Apolipoprotein B, Endothelium, Apolipoprotein E4, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Nanoparticle, Lipid nanoparticle, Bioengineering, Nanotechnology, Protein Corona, 02 engineering and technology, Blood–brain barrier, 03 medical and health sciences, Blood brain barrier, Brain targeting, Lipid nanoparticles, Protein corona, Animals, Apolipoproteins, Biological Transport, Blood-Brain Barrier, Brain, Mice, Mice, Inbred BALB C, Nanoparticles, Drug Delivery Systems, BIO/09 - FISIOLOGIA, Parenchyma, medicine, General Materials Science, Apolipoprotein e4, Inbred BALB C, biology, Animal, Chemistry, 021001 nanoscience & nanotechnology, Apolipoprotein, 030104 developmental biology, medicine.anatomical_structure, Biophysics, biology.protein, Molecular Medicine, 0210 nano-technology
Abstract: Many potential therapeutic compounds for brain diseases fail to reach their molecular targets due to the impermeability of the blood-brain barrier, limiting their clinical development. Nanotechnology-based approaches might improve compounds pharmacokinetics by enhancing binding to the cerebrovascular endothelium and translocation into the brain. Adsorption of apolipoprotein E4 onto polysorbate 80-stabilized nanoparticles to produce a protein corona allows the specific targeting of cerebrovascular endothelium. This strategy increased nanoparticle translocation into brain parenchyma, and improved brain nanoparticle accumulation 3-fold compared to undecorated particles (119.8 vs 40.5 picomoles). Apolipoprotein decorated nanoparticles have high clinical translational potential and may improve the development of nanotechnology-based medicine for a variety of neurological diseases. (C) 2017 Elsevier Inc. All rights reserved.
Published: 2018

126. Inventare la memoria: Lalla Romano, Mario Soldati, Carlo Levi

Author: E. Donzelli and Donzelli, E.
Subjects: antifascismo, letteratura e poesia, Torino, Settore L-FIL-LET/10 - Letteratura Italiana
Published: 2023

127. Making Connections: Mesenchymal Stem Cells Manifold Ways to Interact with Neurons

Author: Olga Tarasiuk, Elisa Ballarini, Elisabetta Donzelli, Virginia Rodriguez-Menendez, Mario Bossi, Guido Cavaletti, Arianna Scuteri, Tarasiuk, O, Ballarini, E, Donzelli, E, Rodriguez-Menendez, V, Bossi, M, Cavaletti, G, and Scuteri, A
Subjects: mesenchymal cell, Adult, Sensory Receptor Cells, Cell Survival, Organic Chemistry, Mesenchymal Stem Cells, General Medicine, Cell Communication, mesenchymal cells, neurons, tunneling nanotubes, gap junction, extracellular vesicles, Catalysis, neuron, Coculture Techniques, Computer Science Applications, Inorganic Chemistry, tunneling nanotube, BIO/16 - ANATOMIA UMANA, nervous system, Humans, extracellular vesicle, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy
Abstract: Mesenchymal Stem Cells (MSCs) are adult multipotent cells able to increase sensory neuron survival: direct co-culture of MSCs with neurons is pivotal to observe a neuronal survival increase. Despite the identification of some mechanisms of action, little is known about how MSCs physically interact with neurons. The aim of this paper was to investigate and characterize the main mechanisms of interaction between MSCs and neurons. Morphological analysis showed the presence of gap junctions and tunneling nanotubes between MSCs and neurons only in direct co-cultures. Using a diffusible dye, we observed a flow from MSCs to neurons and further analysis demonstrated that MSCs donated mitochondria to neurons. Treatment of co-cultures with the gap junction blocker Carbenoxolone decreased neuronal survival, thus demonstrating the importance of gap junctions and, more in general, of cell communication for the MSC positive effect. We also investigated the role of extracellular vesicles; administration of direct co-cultures-derived vesicles was able to increase neuronal survival. In conclusion, our study demonstrates the presence and the importance of multiple routes of communication between MSCs and neurons. Such knowledge will allow a better understanding of the potential of MSCs and how to maximize their positive effect, with the final aim to provide the best protective treatment.
Published: 2022

128. Targeting GRP receptor: Design, synthesis and preliminary biological characterization of new non-peptide antagonists of bombesin

Author: Cristina Airoldi, Martina Arici, Alexandre Orsato, Alessandro Palmioli, Cecilia Ceresa, Paola Coccetti, Barbara La Ferla, Gabriella Nicolini, Marcella Rocchetti, Elisabetta Donzelli, Farida Tripodi, Palmioli, A, Nicolini, G, Tripodi, F, Orsato, A, Ceresa, C, Donzelli, E, Arici, M, Coccetti, P, Rocchetti, M, La Ferla, B, and Airoldi, C
Subjects: GRP-R antagonist, Antineoplastic Agents, Circular dichroism, 01 natural sciences, Biochemistry, Epitope, Gastrin Releasing Peptide (GRP), NMR-based structural and conformational analysi, chemistry.chemical_compound, Structure-Activity Relationship, GRP-R ligand, GRP receptors (GRP-R), CHIM/06 - CHIMICA ORGANICA, Drug Discovery, Gastrin-releasing peptide receptor, Tumor Cells, Cultured, Humans, Receptor, Bombesin (BN), Molecular Biology, Cell Proliferation, Dose-Response Relationship, Drug, Molecular Structure, 010405 organic chemistry, Organic Chemistry, MM and MD conformational studie, Rational design, Bombesin, Biological activity, Transmembrane protein, 0104 chemical sciences, Receptors, Bombesin, 010404 medicinal & biomolecular chemistry, CHIM/08 - CHIMICA FARMACEUTICA, chemistry, Drug Design, Biophysics, Pharmacophore, Drug Screening Assays, Antitumor, hormones, hormone substitutes, and hormone antagonists
Abstract: We report the rational design, synthesis, and in vitro preliminary evaluation of a new small library of non-peptide ligands of Gastrin Releasing Peptide Receptor (GRP-R), able to antagonize its natural ligand bombesin (BN) in the nanomolar range of concentration. GRP-R is a transmembrane G-protein coupled receptor promoting the stimulation of cancer cell proliferation. Being overexpressed on the surface of different human cancer cell lines, GRP-R is ideal for the selective delivery to tumor cells of both anticancer drug and diagnostic devices. What makes very challenging the design of non-peptide BN analogues is that the 3D structure of the GRP-R is not available, which is the case for many membrane-bound receptors. Thus, the design of GRP-R ligands has to be based on the structure of its natural ligands, BN and GRP. We recently mapped the BN binding epitope by NMR and here we exploited the same spectroscopy, combined with MD, to define BN conformation in proximity of biological membranes, where the interaction with GRP-R takes place. The gained structural information was used to identify a rigid C-galactosidic scaffold able to support pharmacophore groups mimicking the BN key residues’ side chains in a suitable manner for binding to GRP-R. Our BN antagonists represent hit compounds for the rational design and synthesis of new ligands and modulators of GRP-R. The further optimization of the pharmacophore groups will allow to increase the biological activity. Due to their favorable chemical properties and stability, they could be employed for the active receptor-mediated targeting of GRP-R positive tumors.
Published: 2020

129. Mesenchymal Stem Cells: A Trump Card for the Treatment of Diabetes?

Author: Arianna Scuteri, Elisabetta Donzelli, Donzelli, E, and Scuteri, A
Subjects: medicine.medical_specialty, insulin, Medicine (miscellaneous), Type 2 diabetes, Review, type-2 diabetes, Regenerative medicine, General Biochemistry, Genetics and Molecular Biology, BIO/16 - ANATOMIA UMANA, Diabetes mellitus, Type-1 diabete, medicine, Immune Diseases, Intensive care medicine, lcsh:QH301-705.5, Type-2 diabete, Mesenchymal stem cell, Type 1 diabetes, mesenchymal stem cells, business.industry, medicine.disease, lcsh:Biology (General), pancreatic islets transplantation, type-1 diabetes, immune suppression, business, Adult stem cell
Abstract: The advent of the new revolutionary approach based on regenerative medicine is progressively reshaping the therapeutic scenario of many different diseases, such as cardiovascular diseases and immune diseases, with encouraging results. During the last 10 years, many studies have also proposed the use of mesenchymal stem cells (MSCs), adult stem cells with several interesting properties already used in different experimental models, for the treatment of diabetes, however, reporting conflicting outcomes. These reasons have given rise to a question: are these cells a real trump card for the biomedical field? Are they really able to outclass the traditional therapies, or at least able to give an advantage over them? In this review, we will discuss the most promising results obtained with MSCs for the treatment of diabetes and its complications, we will compare the different therapeutic treatments applied as well as the most likely mechanisms of action, and overall we will give an in-depth overview of the pros and the cons of the use of MSCs for the therapy of both type-1 and type-2 diabetes.
Published: 2020

130. Protective Effect of Human Mesenchymal Stem Cells on the Survival of Pancreatic Islets

Author: G Fumagalli, Guido Cavaletti, Giovanna D'Amico, Andrea Remuzzi, Marina Figliuzzi, Rodriguez-Menendez, Arianna Scuteri, Barbara Bonandrini, M Monfrini, Elisabetta Donzelli, Fumagalli, G, Monfrini, M, Donzelli, E, Rodriguez-Menendez, V, Bonandrini, B, Figliuzzi, M, Remuzzi, A, D'Amico, G, Cavaletti, G, and Scuteri, A
Subjects: medicine.medical_treatment, Pancreatic islets, Pancreatic islet, Mesenchymal stem cells, Soluble factors, Type-I diabetes, 03 medical and health sciences, 0302 clinical medicine, BIO/16 - ANATOMIA UMANA, Diabetes mellitus, Medicine, Mesenchymal stem cell, 030304 developmental biology, 0303 health sciences, geography, geography.geographical_feature_category, business.industry, Settore ING-IND/34 - Bioingegneria Industriale, Cell Biology, Islet, medicine.disease, Soluble factor, In vitro, Transplantation, medicine.anatomical_structure, Cytokine, Cancer research, Pancreatic islet transplantation, Original Article, business, 030217 neurology & neurosurgery, Developmental Biology
Abstract: Background and Objectives: Transplantation of pancreatic islets is an intriguing new therapeutic option to face the worldwide spread problem of Type-I diabetes. Currently, its clinical use is limited by several problems, mainly based on the high number of islets required to restore normoglycaemia and by the low survival of the transplanted tissue. A promising attempt to overcome the limits to such an approach was represented by the use of Mesenchymal Stem Cells (MSC). Despite the encouraging results obtained with murine-derived MSC, little is still known about their protective mechanisms. The aim of the present study was to verify the effectiveness, (besides murine MSC), of clinically relevant human-derived MSC (hMSC) on protecting pancreatic islets, thus also shedding light on the putative differences between MSC of different origin. Methods and Results: Threefold kinds of co-cultures were therefore in vitro set up (direct, indirect and mixed), to analyze the hMSC effect on pancreatic islet survival and function and to study the putative mechanisms involved. Although in a different way with respect to murine MSC, also human derived cells demonstrated to be effective on protecting pancreatic islet survival. This effect could be due to the release of some trophic factors, such as VEGF and Il-6, and by the reduction of inflammatory cytokine TNF-α. Conclusions: Therefore, hMSC confirmed their great clinical potential to improve the feasibility of pancreatic islet transplantation therapy against diabetes.
Published: 2019

131. Comparing the different response of PNS and CNS injured neurons to mesenchymal stem cell treatment

Author: Arianna Scuteri, Guido Cavaletti, M Ravasi, Daniele Maggioni, M Monfrini, Giovanni Tredici, Elisabetta Donzelli, Monfrini, M, Ravasi, M, Maggioni, D, Donzelli, E, Tredici, G, Cavaletti, G, and Scuteri, A
Subjects: 0301 basic medicine, Sensory neurons, Sensory Receptor Cells, Cell Survival, Glutamic Acid, Sensory system, Biology, Neuroprotection, Rats, Sprague-Dawley, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, BIO/16 - ANATOMIA UMANA, Ganglia, Spinal, medicine, Neurotoxicity, Animals, Molecular Biology, Cells, Cultured, Mesenchymal stem cell, Cerebral Cortex, Neurons, Sensory neuron, Glutamate receptor, Mesenchymal Stem Cells, Cell Biology, medicine.disease, Coculture Techniques, Rats, Adult Stem Cells, 030104 developmental biology, medicine.anatomical_structure, Apoptosis, Peripheral nervous system, Culture Media, Conditioned, Cortical neuron, Female, Stem cell, Cisplatin, Neuroscience, 030217 neurology & neurosurgery
Abstract: Mesenchymal stem cells (MSCs) are adult bone marrow-derived stem cells actually proposed indifferently for the therapy of neurological diseases of both the Central (CNS) and the Peripheral Nervous System (PNS), as a panacea able to treat so many different diseases by their immunomodulatory ability and supportive action on neuronal survival. However, the identification of the exact mechanism of MSC action in the different diseases, although mandatory to define their real and concrete utility, is still lacking. Moreover, CNS and PNS neurons present many different biological properties, and it is still unclear if they respond in the same manner not only to MSC treatment, but also to injuries. For these reasons, in this study we compared the susceptibility of cortical and sensory neurons both to toxic drug exposure and to MSC action, in order to verify if these two neuronal populations can respond differently. Our results demonstrated that Cisplatin (CDDP), Glutamate, and Paclitaxel-treated sensory neurons were protected by the co-culture with MSCs, in different manners: through direct contact able to block apoptosis for CDDP- and Glutamate-treated neurons, and by the release of trophic factors for Paclitaxel-treated ones. A possible key soluble factor for MSC protection was Glutathione, spontaneously released by these cells. On the contrary, cortical neurons resulted more sensitive than sensory ones to the toxic action of the drugs, and overall MSCs failed to protect them. All these data identified for the first time a different susceptibility of cortical and sensory neurons, and demonstrated a protective action of MSCs only against drugs in peripheral neurotoxicity.
Published: 2018

132. Therapeutic potential of Mesenchymal Stem Cells for the treatment of diabetic peripheral neuropathy

Author: F Avezza, Valentina Alda Carozzi, Sara Silvani, Giuseppe Lauria, Giovanni Tredici, Annalisa Canta, Luca Crippa, Elisa Ballarini, M Monfrini, Roberto Bianchi, Elisabetta Donzelli, Marina Figliuzzi, Guido Cavaletti, Alessia Chiorazzi, Cristina Meregalli, Arianna Scuteri, Norberto Oggioni, Barbara Bonandrini, Virginia Rodriguez-Menendez, Andrea Remuzzi, Carla Porretta-Serapiglia, Monfrini, M, Donzelli, E, RODRIGUEZ MENENDEZ, V, Ballarini, E, Carozzi, V, Chiorazzi, A, Meregalli, C, Canta, A, Oggioni, N, Crippa, L, Avezza, F, Silvani, S, Bonandrini, B, Figliuzzi, M, Remuzzi, A, Porretta Serapiglia, C, Bianchi, R, Lauria, G, Tredici, G, Cavaletti, G, and Scuteri, A
Subjects: 0301 basic medicine, Oncology, Blood Glucose, Male, Diabetic neuropathy, Neural Conduction, Nerve Fibers, Myelinated, Rats, Sprague-Dawley, BIO/16 - ANATOMIA UMANA, Diabetic Neuropathies, Diabetes, Mesenchymal stem cell, Pancreatic islet transplantation, Neurology, Developmental Neuroscience, geography.geographical_feature_category, Antibiotics, Antineoplastic, Settore ING-IND/34 - Bioingegneria Industriale, Islet, medicine.anatomical_structure, Pain Threshold, medicine.medical_specialty, Mesenchymal Stem Cell Transplantation, Thiobarbituric Acid Reactive Substances, Streptozocin, 03 medical and health sciences, Diabetes mellitus, Internal medicine, medicine, Animals, Rats, Wistar, Pancreas, geography, Analysis of Variance, business.industry, Pancreatic islets, Body Weight, Mesenchymal Stem Cells, medicine.disease, Rats, Transplantation, Disease Models, Animal, 030104 developmental biology, Peripheral neuropathy, Endocrinology, business
Abstract: Type-1 Diabetes is generally treated with exogenous insulin administration. Despite treatment, a very common long term consequence of diabetes is the development of a disabling and painful peripheral neuropathy. The transplantation of pancreatic islets is an advanced alternative therapeutic approach, but its clinical application is still very limited, mainly because of the great number of islets required to complete the procedure and of their short-term survival. An intriguing method to improve the performance of pancreatic islets transplantation is the co-transplantation of Mesenchymal Stem Cells (MSCs), adult stem cells already known to support the survival of different cellular populations. In this proof-of-concept study, we demonstrated using an in vivo model of diabetes, the ability of allogenic MSCs to reduce the number of pancreatic islets necessary to achieve glycemic control in diabetic rats, and overall their positive effect on diabetic neuropathy, with the reduction of all the neuropathic signs showed after disease induction. The cutback of the pancreatic islet number required to control glycemia and the regression of the painful neuropathy make MSC co-transplantation a very promising tool to improve the clinical feasibility of pancreatic islet transplantation for diabetes treatment.
Published: 2017

133. Oxidative stress and inflammation induced by acute and subacute ultrafine exposure: contrinbution to alzheimer's disease

Author: MILANI, CHIARA, LONATI, ELENA RITA, FARINA, FRANCESCA, BOTTO, LAURA MARIA, MASSIMINO, LUCA, DONZELLI, ELISABETTA, CHIORAZZI, ALESSIA, BALLARINI, ELISA, CAVALETTI, GUIDO ANGELO, SANCINI, GIULIO ALFREDO, BULBARELLI, ALESSANDRA, PALESTINI, PAOLA NOVERINA ADA, Crippa, L, MARMIROLI, PAOLA LORENA, Milani, C, Lonati, E, Farina, F, Botto, L, Massimino, L, Donzelli, E, Chiorazzi, A, Crippa, L, Marmiroli, P, Ballarini, E, Cavaletti, G, Sancini, G, Bulbarelli, A, and Palestini, P
Subjects: Ultrafine Particles, Alzheimer Disease, BIO/10 - BIOCHIMICA
Published: 2017

134. Effects induced by particles derived from two anthropogenic sources on respiratory, cardiovascular and central nervous systems

Author: Marmiroli, Paola, Milani, Chiara, Ballarini, Elisa, Donzelli, Elisabetta, Crippa, Luca, Cavaletti, Guido, Palestini, Paola, Farina, Francesca, Marmiroli, P, Milani, C, Ballarini, E, Donzelli, E, Crippa, L, Cavaletti, G, Palestini, P, and Farina, F
Subjects: BIO/16 - ANATOMIA UMANA, particulate matter, imaging, oxidative stress, Air pollution, Air pollution, particulate matter, imaging, inflammation, oxidative stress, BIO/10 - BIOCHIMICA
Abstract: Air pollution represents a well-known environmental problem related to public health. Particulate matter (PM) is a heterogeneous mixture of chemicals, metals and soils. Its adverse effects have been correlated with particles size, being smaller particles more likely to cause a worst damage, so their study deserves more attention. Ultrafine particles (UFPs, dae < 100 nm) are short-lived particles dispersed in the environment. In Lombardy, diesel combustion and solid biomass burning are the most relevant contributors to primary UFPs emissions (15-30 nm in diameter). Toxicological studies, mainly in vitro, indicate specific effects for particles of different origin but comparative in vivo studies are scarce. PM exposure has been primarily associated to pulmonary and cardiovascular diseases through oxidative stress and inflammatory response, but recently it has been postulated that PM exposure could also be an important risk factor for neurotoxicity and could have a role in neurodegenerative diseases. In this study we analysed in BALB/c mice the effect of single and repeated intratracheal instillation of diesel (DEP) and biomass (BC) particles on respiratory, cardiovascular and central nervous systems, comparing the two different UFPs sources. The study was performed at biochemical and histopathological level. Different pro-inflammatory, cytotoxic, pro-coagulant and oxidative stress markers were measured. For the histopathological evaluation, sections of lung, heart and different parts of the central nervous system (CNS) were examined at light microscope, using standard staining tecniques and immunohistochemical methods. Inflammation was also monitored in living mice following BC or DEP intratracheal repeated administration using the FMT 1500 fluorescence tomography imaging system and the MMPSense 750 Fast probe. Our results indicate that even a single instillation of both the sources of UFPs induces a wide range of biochemical changes in the respiratory and cardiovascular systems, then confirmed by repeated instillation. In the CNS similar modifications were observed, although these were much more evident after repeated instillations. Histological examination demonstrated the presence of macrophages containing particles in the lungs after UFPs single and, more abundantly, repeated administration. However, significant changes were not observed in sections of heart and CNS. DEP was more effective in inducing oxidative stress and inflammation compared to BC., Italian Journal of Anatomy and Embryology, Vol. 122, No. 1 (Supplement) 2017
Published: 2017

135. Mesengenic Differentiation: Comparison of Human and Rat Bone Marrow Mesenchymal Stem Cells

Author: Dana Foudah, Giovanna D'Amico, Giovanni Tredici, Juliana Redondo, Arianna Scuteri, Elisabetta Donzelli, Cristina Caldara, Mariarosaria Miloso, Scuteri, A, Donzelli, E, Foudah, D, Caldara, C, Redondo, J, D'Amico, G, Tredici, G, and Miloso, M
Subjects: Chondrogenic differentiation, business.industry, Mesenchymal stem cell, Mesenchymal Stem Cells, Cell Biology, Rat Bone Marrow, Chondrogenesis, In vitro, Cell biology, Clinical Practice, BIO/16 - ANATOMIA UMANA, Adipogenesis, Osteogenic differentiation, Adipogenic differentiation, Rat, Medicine, Original Article, business, Human, Developmental Biology
Abstract: Background and objectives Cellular therapies using Mesenchymal Stem Cells (MSCs) represent a promising approach for the treatment of degenerative diseases, in particular for mesengenic tissue regeneration. However, before the approval of clinical trials in humans, in vitro studies must be performed aimed at investigating MSCs' biology and the mechanisms regulating their proliferation and differentiation abilities. Besides studies on human MSCs (hMSCs), MSCs derived from rodents have been the most used cellular type for in vitro studies. Nevertheless, the transfer of the results obtained using animal MSCs to hMSCs has been hindered by the limited knowledge regarding the similarities existing between cells of different origins. Aim of this paper is to highlight similarities and differences and to clarify the sometimes reported different results obtained using these cells. Methods and results We compare the differentiation ability into mesengenic lineages of rat and human MSCs cultured in their standard conditions. Our results describe in which way the source from which MSCs are derived affects their differentiation potential, depending on the mesengenic lineage considered. For osteogenic and chondrogenic lineages, the main difference between human and rat MSCs is represented by differentiation time, while for adipogenesis hMSCs have a greater differentiation potential. Conclusions These results on the one hand suggest to carefully evaluate the transfer of results obtained with animal MSCs, on the other hand they offer a clue to better apply MSCs into clinical practice.
Published: 2014

136. ApoE-modified solid lipid nanoparticles: A feasible strategy to cross the blood-brain barrier

Author: Giulio Sancini, P Gasco, Roberta Rigolio, C Musicanti, R Dal Magro, Francesca Re, Elisabetta Donzelli, Elisa Ballarini, Guido Cavaletti, F Ornaghi, Annalisa Canta, Ilaria Cambianica, S Beretta, DAL MAGRO, R, Ornaghi, F, Cambianica, I, Beretta, S, Re, F, Musicanti, C, Rigolio, R, Donzelli, E, Canta, A, Ballarini, E, Cavaletti, G, Gasco, P, and Sancini, G
Subjects: 0301 basic medicine, Apolipoprotein E, Male, BALB 3T3 Cells, Surface Properties, Pharmaceutical Science, Peptide, 02 engineering and technology, Pharmacology, Blood–brain barrier, Cell Line, Capillary Permeability, 03 medical and health sciences, Mice, Apolipoproteins E, Drug Delivery Systems, BIO/09 - FISIOLOGIA, Solid lipid nanoparticle, medicine, Animals, chemistry.chemical_classification, Drug Carriers, Chemistry, 021001 nanoscience & nanotechnology, Solid lipid nanoparticles, ApoE-derived peptide, pulmonary administration, brain targeting, blood-brain barrier, Lipid Metabolism, Lipids, Bioavailability, 030104 developmental biology, medicine.anatomical_structure, Blood-Brain Barrier, Drug delivery, Surface modification, Nanoparticles, Nanocarriers, 0210 nano-technology
Abstract: Solid lipid nanoparticles (SLN) are colloidal drug delivery systems characterized by higher entrapment efficiency, good scalability of the preparation process and increased sustained prolonged release of the payload compared to other nanocarriers. The possibility to functionalize the surface of SLN with ligands to achieve a site specific targeting makes them attractive to overcome the limited blood-brain barrier (BBB) penetration of therapeutic compounds. SLN are prepared for brain targeting by exploiting the adaptability of warm microemulsion process for the covalent surface modification with an Apolipoprotein E-derived peptide (SLN-mApoE). Furthermore, the influence of the administration route on SLN-mApoE brain bioavailability is here evaluated. SLN-mApoE are able to cross intact a BBB in vitro model. The pulmonary administration of SLN-mApoE is related to a higher confinement in the brain of Balb/c mice compared to the intravenous and intraperitoneal administration routes, without inducing any acute inflammatory reaction in the lungs. These results promote the pulmonary administration of brain-targeted SLN as a feasible strategy for improving brain delivery of therapeutics.
Published: 2016

137. Human endothelial progenitor cells rescue cortical neurons from oxygen-glucose deprivation induced death

Author: Giovanna D'Amico, Susanna Bacigaluppi, Nicola Luigi Bragazzi, Valentina De Cristofaro, Arianna Scuteri, Elisabetta Donzelli, Giovanni Tredici, Bacigaluppi, S, Donzelli, E, De Cristofaro, V, Bragazzi, N, D'Amico, G, Scuteri, A, and Tredici, G
Subjects: 0301 basic medicine, Cortical neurons, Programmed cell death, Cell Survival, Cells, Ischemia, Brain Ischemia, Endothelial progenitor cell, Rats, Sprague-Dawley, Brain ischemia, Endothelial progenitor cells, Indirect co-culture, Mesenchymal stem cells, Oxygen glucose deprivation, Animals, Cell Hypoxia, Cells, Cultured, Cerebral Cortex, Coculture Techniques, Endothelial Progenitor Cells, Glucose, Humans, Neurons, Rats, Cell Death, 03 medical and health sciences, 0302 clinical medicine, medicine, Viability assay, Progenitor cell, Mesenchymal stem cell, Neuroscience (all), Cultured, business.industry, Medicine (all), General Neuroscience, medicine.disease, Cell biology, 030104 developmental biology, medicine.anatomical_structure, nervous system, Cortical neuron, Bone marrow, Sprague-Dawley, Stem cell, business, Neuroscience, 030217 neurology & neurosurgery
Abstract: Background and aim Cerebral ischemia is characterized by both acute and delayed neuronal injuries. Neuro-protection is a major issue that should be properly addressed from a pharmacological point of view, and cell-based treatment approaches are of interest due to their potential pleiotropic effects. Endothelial progenitor cells have the advantage of being mobilized from the bone marrow into the circulation, but have been less studied than other stem cells, such as mesenchymal stem cells. Therefore, the comparison between human endothelial progenitor cells (hEPC) and human mesenchymal progenitor cells (hMSC) in terms of efficacy in rescuing neurons from cell death after transitory ischemia is the aim of the current study, in the effort to address further directions. Materials and methods In vitro model of oxygen-glucose deprivation (OGD) on a primary culture of rodent cortical neurons was set up with different durations of exposure: 1, 2 and 3 hrs with assessment of neuron survival. The 2 hrs OGD was chosen for the subsequent experiments. After 2 hrs OGD neurons were either placed in indirect co-culture with hMSC or hEPC or cultured in hMSC or hEPC conditioned medium and cell viability was evaluated by MTT assay. Results At day 2 after 2 hrs OGD exposure, mean neuronal survival was 47.9 ± 24.2%. In contrast, after treatment with hEPC and hMSC indirect co-culture was 74.1 ± 27.3%; and 69.4 ± 18.8%, respectively. In contrast, treatment with conditioned medium did not provide any advantage in terms of survival to OGD neurons Conclusion The study shows the efficacy of hEPC in indirect co-culture to rescue neurons from cell death after OGD, comparable to that of hMSC. hEPC deserve further studies given their potential interest for ischemia.
Published: 2016

138. 'Nose-to-brain delivery of polymeric nanoparticles'

Author: DAL MAGRO, ROBERTA, DONZELLI, ELISABETTA, BALLARINI, ELISA, SANCINI, GIULIO ALFREDO, Musumeci, T, Bonaccorso, A, Puglisi, G, DAL MAGRO, R, Musumeci, T, Bonaccorso, A, Donzelli, E, Ballarini, E, Puglisi, G, and Sancini, G
Subjects: Nanoparticle, BIO/09 - FISIOLOGIA, brain delivery, intranasal administration
Abstract: The difficulties encountered in the treatment of brain diseases with conventional pharmacological tools have created the need for innovative strategies. The combination of nanocarriers and alternative administration routes could represent an efficient approach to reach the brain. Intranasal administration (IN) provides a non-invasive option to deliver drugs to the brain, bypassing the BBB, reducing the first-pass effect and enhancing patient compliance. The objective of the present study was to investigate the biodistribution and bioavailability to the brain of polymeric nanoparticles (PNPs) after IN administration in healthy mice. PNPs were prepared with poly-lactide-co-glycolide polymer using nanoprecipitation method. PNPs had a polymodal distribution around 350 nm. The biodistribution of DiR-loaded PNPs was evaluated by means of 3D fluorescence tomography imaging. Our results show that 3h after a single IN administration, more than 5% of the injected dose was detectable in the brain. PNPs were quickly cleared from the thorax and the abdominal cavity, while the brain fluorescence slowly decreased ranging from 3.7% to 2.3% between 24h and 96h. Repeated IN administrations (2 administrations, 24h apart) provided a significant increment of PNPs-associated fluorescence in the brain, without affecting PNPs accumulation in other organs. These findings support nose-to-brain translocation of PNPs as a noninvasive strategy to enhance the bioavailability of therapeutics to the brain
Published: 2016

139. GMP-grade preparation of biomimetic scaffolds with osteo-differentiated autologous mesenchymal stromal cells for the treatment of alveolar bone resorption in periodontal disease

Author: Marco Baldoni, Giuseppe Gaipa, Enrico Pogliani, Ettore Biagi, Daniela Belotti, F. Carini, Elisabetta Donzelli, Andrea Biondi, Giovanni Tredici, Giovanna D'Amico, Agnese Salvadè, Giuliano Renoldi, Salvade', A, Belotti, D, Donzelli, E, D'Amico, G, Gaipa, G, Renoldi, G, Carini, F, Baldoni, M, Pogliani, E, Tredici, G, Biondi, A, and Biagi, E
Subjects: Cancer Research, Pathology, medicine.medical_specialty, Bone Regeneration, Bone disease, Immunology, Cell Culture Techniques, CD34, Bone Matrix, Biocompatible Materials, Context (language use), GMP, MSC, periodontal disease, tissue engineering, Mesenchymal Stem Cell Transplantation, Tissue engineering, Absorbable Implants, medicine, Humans, Immunology and Allergy, Cell Lineage, CD90, Bone Resorption, Cells, Cultured, Periodontal Diseases, Genetics (clinical), Dental alveolus, Transplantation, Osteoblasts, Bone Density Conservation Agents, Guided Tissue Regeneration, business.industry, Mesenchymal stem cell, Cell Differentiation, Cell Biology, medicine.disease, Resorption, Jaw, Oncology, Collagen, Stromal Cells, business
Abstract: Background Periodontal disease is a degenerative illness that leads to resorption of the alveolar bone. Mesenchymal stromal cells (MSC) represent a novel tool for the production of biologic constructs for the treatment of degenerative bone diseases. The preparation of MSC differentiated into osteogenic lineage for clinical use requires the fulfillment of strict good manufacturing practice (GMP) procedures. Methods MSC were isolated from BM samples and then cultured under GMP conditions. MSC were characterized phenotypically and for their differentiative potential. Cells were seeded onto collagen scaffolds (Gingistat) and induced to differentiate into osteogenic lineages using clinical grade drugs compared with standard osteogenic supplements. Alizarin Red S stain was used to test the deposition of the mineral matrix. Standard microbiologic analysis was performed to verify the product sterility. Results The resulting MSC were negative for CD33, CD34 and HLA-DR but showed high expression of CD90, CD105 and HLA-ABC (average expressions of 94.3%, 75.8% and 94.2%, respectively). Chondrogenic, osteogenic and adipogenic differentiation potential was demonstrated. The MSC retained their ability to differentiate into osteogenic lineage when seeded onto collagen scaffolds after exposure to a clinical grade medium. Cell numbers and cell viability were adequate for clinical use, and microbiologic assays demonstrated the absence of any contamination. Discussion In the specific context of a degenerative bone disease with limited involvement of skeletal tissue, the combined use of MSC, exposed to an osteogenic clinical grade medium, and biomimetic biodegradable scaffolds offers the possibility of producing adequate numbers of biologic tissue-engineered cell-based constructs for use in clinical trials.
Published: 2007

140. Therapeutic Administration of Mesenchymal Stem Cells Abrogates the Relapse Phase in Chronic Relapsing-Remitting EAE

Author: Alessia Chiorazzi, Annalisa Canta, Luca Crippa, M Monfrini, Cristina Meregalli, Valentina Alda Carozzi, Elisa Ballarini, Guido Cavaletti, Arianna Scuteri, Norberto Oggioni, Giovanni Tredici, Elisabetta Donzelli, Roberta Rigolio, Scuteri, A, Donzelli, E, Rigolio, R, Ballarini, E, Monfrini, M, Crippa, L, Chiorazzi, A, Carozzi, V, Meregalli, C, Canta, A, Oggioni, N, Tredici, G, and Cavaletti, G
Subjects: Clinical score, business.industry, Multiple sclerosis, Experimental autoimmune encephalomyelitis, Central nervous system, Mesenchymal stem cell, Inflammation, Disease, medicine.disease, Active microglia, MSC, Relapsing-Remitting EAE, medicine.anatomical_structure, Immune system, BIO/16 - ANATOMIA UMANA, Recovery, Immunology, medicine, Relapse phase, medicine.symptom, Demyelination, business
Abstract: Multiple Sclerosis (MS) is a neuroinflammatory and immune-mediated chronic disease of the Central Nervous System which progressively damages the axonal myelin sheath, leading to axonal transmission impairment and to the development of neurological symptoms. Most MS cases are characterized by a relapsing-remitting course, and current therapies rely only on the use of immunomodulating drugs which are, however, unable to reverse disease progression. Among the newly proposed alternative therapies, Mesenchymal Stem Cells (MSCs) are considered suitable for MS treatment due to their capacity to modulate the immune response and to modify the pattern of the released cytokines. So far, encouraging results have been obtained with the administration of MSCs before disease onset, mainly in animal models of acute Experimental Autoimmune Encephalomyelitis (EAE) in which MSCs were able to reduce inflammation, thus ameliorating also the disease’s clinical symptoms. On the contrary, only a very small number of studies have investigated the effect of MSCs on relapsing-remitting models of the disease. Here, we investigated the therapeutic potential of MSC administration, both before and after the disease’s onset, in an animal model of MS represented by Dark Agouti rats affected by chronic Relapsing-Remitting EAE. Our results demonstrated that in chronic Relapsing-Remitting EAE the administration of MSCs after the clinical disease’s appearance is able to completely abrogate the relapsing phase and to strongly reduce spinal cord demyelination. These encouraging results have demonstrated that MSCs can provide a protective and reparative strategy for MS treatment.
Published: 2015

141. Stem cell augmented mesh materials: an in vitro and in vivo study

Author: Stefano Manodoro, F Avezza, Silvia Farè, Lina Altomare, Daniele Maggioni, Gabriella Nicolini, Rodolfo Milani, Fanny Veneziano, Matteo Frigerio, Federico Spelzini, Elisabetta Donzelli, Giovanni Tredici, Spelzini, F, Manodoro, S, Frigerio, M, Nicolini, G, Maggioni, D, Donzelli, E, Altomare, L, Farè, S, Veneziano, F, Avezza, F, Tredici, G, and Milani, R
Subjects: medicine.medical_specialty, Neutrophils, Urology, Biocompatible Materials, Inflammation, Mesenchymal Stem Cell Transplantation, Polypropylenes, Rats, Sprague-Dawley, Leukocyte Count, Random Allocation, In vivo, Tensile Strength, medicine, Animals, Acellular Dermis, Cells, Cultured, Cell Proliferation, Tissue Scaffolds, Cell growth, business.industry, Mesenchymal stem cell, Obstetrics and Gynecology, Mesenchymal Stem Cells, Surgical Mesh, BIO/17 - ISTOLOGIA, Elasticity, In vitro, Rats, mesh, stem cells, graft-related complications, Surgery, Surgical mesh, Female, Collagen, Implant, Stem cell, medicine.symptom, business, Biomedical engineering
Abstract: Introduction and hypothesis: To test in vitro and in vivo the capability of mesh materials to act as scaffolds for rat-derived mesenchymal stem cells (rMSCs) and to compare inflammatory response and collagen characteristics of implant materials, either seeded or not with rMSCs. Methods: rMSCs isolated from rat bone marrow were seeded and cultured in vitro on four different implant materials. Implants showing the best rMSC proliferation rate were selected for the in vivo experiment. Forty-eight adult female Sprague–Dawley rats were randomly divided into two treatment groups. The implant of interest—either seeded or not with rMSCs—was laid and fixed over the muscular abdominal wall. Main outcome measures were: in vitro, proliferation of rMSCs on selected materials; in vivo, the occurrence of topical complications, the evaluation of systemic and local inflammatory response and examination of the biomechanical properties of explants. Results: Surgisis and Pelvitex displayed the best cell growth in vitro. At 90 days in the rat model, rMSCs were related to a lower count of neutrophil cells for Pelvitex and a greater organisation and collagen amount for Surgisis. At 7 days Surgisis samples seeded with rMSCs displayed higher breaking force and stiffness. Conclusions: The presence of rMSCs reduced the systemic inflammatory response on synthetic implants and improved collagen characteristics at the interface between biological grafts and native tissues. rMSCs enhanced the stripping force on biological explants.
Published: 2015

142. Neurotoxicity of Platinum Compounds: Comparison of the Effects of Cisplatin and Oxaliplatin on the Human Neuroblastoma Cell Line SH-SY5Y

Author: Martine Bayssas, A Strada, S Galbiati, E Donzelli, Maria Grazia Petruccioli, Maria Carfì, Guido Cavaletti, Giovanni Tredici, Genevieve Griffon-Etienne, Mariarosaria Miloso, Donzelli, E, Carfì, M, Miloso, M, Strada, A, Galbiati, S, Bayssas, M, Griffon Etienne, G, Cavaletti, G, Petruccioli, M, and Tredici, G
Subjects: Cancer Research, Programmed cell death, SH-SY5Y, Organoplatinum Compounds, p38 mitogen-activated protein kinases, Immunoblotting, Antineoplastic Agents, Apoptosis, Antineoplastic Agent, Neuroblastoma, BIO/16 - ANATOMIA UMANA, Cell Line, Tumor, In Situ Nick-End Labeling, medicine, Humans, Caspase, Caspase 7, Cisplatin, biology, Caspase 3, Organoplatinum Compound, Neurotoxicity, Apoptosi, medicine.disease, Oxaliplatin, Enzyme Activation, Proto-Oncogene Proteins c-bcl-2, Neurology, Oncology, Biochemistry, Caspases, biology.protein, Cancer research, Neurology (clinical), Tumor Suppressor Protein p53, Human, Signal Transduction, medicine.drug
Abstract: The main dose-limiting side effect of cancer treatment with platinum compounds is peripheral neurotoxicity. To investigate the intracellular mechanisms of platinum drugs neurotoxicity we have studied the effects of cisplatin and oxaliplatin on the human neuroblastoma cell line SH-SY5Y. Both platinum compounds are toxic causing cellular death by inducing apoptosis but oxaliplatin is less neurotoxic than cisplatin. The study of the proteins involved in the intracellular transduction pathways that may cause apoptotic death, revealed a very similar pattern of changes after exposure to cisplatin or oxaliplatin. In particular, as emonstrated by densitometric analysis, after exposure to both platinum compounds the total amount of the anti-apoptotic protein Bcl-2 was significantly reduced. Conversely, the amount of the pro-apoptotic protein p53 significantly increased. Caspases 3 and 7 were activated, but their activation was a late event, indicating a secondary role in the apoptotic process. Among the mitogen activated protein kinases, only the p38 protein was activated (phosphorylated) early enough to have a possible role in inducing apoptosis, possibly through p53 stabilization. The results of the present study and the data of the literature demonstrate that the ways in which cisplatin and oxaliplatin are neurotoxic are very similar and include not only DNA damage, but also the modulation of specific molecules involved in regulating the cellular equilibrium between apoptotic death and the cell cycle.
Published: 2004

143. Multiple Neuroprotective Mechanisms of Mesenchymal Stem Cells

Author: SCUTERI, ARIANNA, MONFRINI, MARIANNA, DONZELLI, ELISABETTA, BALLARINI, ELISA, RIGOLIO, ROBERTA, CHIORAZZI, ALESSIA, MEREGALLI, CRISTINA, TREDICI, GIOVANNI, Scuteri, A, Monfrini, M, Donzelli, E, Ballarini, E, Rigolio, R, Chiorazzi, A, Meregalli, C, and Tredici, G
Subjects: BIO/16 - ANATOMIA UMANA, Mesenchymal Stem Cells, Neurodegenerative disease
Abstract: Neurodegenerative diseases are different and many-sided disorders affecting both the Central and the Peripheral Nervous System. Despite the very different peculiar features, all the neurodegenerative diseases are characterized by the neuronal degeneration, which may be the consequence of different processes, such as an altered protein accumulation, an axonal damage, or the exposure to toxic agents. The progressive neuronal death leads to disease progression, which is not effectively counteracted by the current symptomatic therapies. Among the newly proposed therapeutic approaches, encouraging results have been obtained with Mesenchymal Stem Cells (MSCs), adult stem cells initially proposed for their differentiation potential and for their immune-modulatory abilities. Here we first verified in vivo the protective potential of MSCs into an in vivo model of Multiple Sclerosis (MS), represented by Experimental Autoimmune Encephalomyelitis (EAE), demonstrating that intravenous administration of MSCs are able to ameliorate the clinical score and the functional skills, and to reduce demyelinated lesions. We then investigated in vitro the possible molecular mechanisms of MSC protective action, thus demonstrating that, besides immunomodulation, MSCs are able to support neuronal survival after toxic stimuli exposure by reducing the apoptosis and by inhibiting the Metalloprotease pathway, which is supposed to be involved in neurodegenerative disease progression. Moreover, MSCs are able to promote the axonal myelination through the modulation of p75 receptor. For all these abilities, MSCs can represent a promising therapeutic approach for the treatment of neurodegenerative disorders.
Published: 2014

144. A double mechanism for the mesenchymal stem cells' positive effect on pancreatic islets

Author: Andrea Remuzzi, Marina Figliuzzi, Giovanni Tredici, M Monfrini, Barbara Bonandrini, M Ravasi, Elisabetta Donzelli, Arianna Scuteri, Virginia Rodriguez-Menendez, Scuteri, A, Donzelli, E, RODRIGUEZ MENENDEZ, V, Ravasi, M, Monfrini, M, Bonandrini, B, Figliuzzi, M, Remuzzi, A, and Tredici, G
Subjects: Male, Anatomy and Physiology, Non-Clinical Medicine, endocrine system diseases, Cellular differentiation, medicine.medical_treatment, lcsh:Medicine, Endocrinology, BIO/16 - ANATOMIA UMANA, Molecular Cell Biology, Insulin Secretion, Insulin, lcsh:Science, mesenchymal stem cell, Multidisciplinary, geography.geographical_feature_category, Stem Cells, Settore ING-IND/34 - Bioingegneria Industriale, Islet, medicine.anatomical_structure, Medicine, PDX1, Cellular Types, Research Article, endocrine system, medicine.medical_specialty, Cell Survival, Endocrine System, Biology, Islets of Langerhans, In vivo, Internal medicine, Cell Adhesion, medicine, Animals, Diabetic Endocrinology, Homeodomain Proteins, geography, pancreatic islets, Endocrine Physiology, Pancreatic islets, lcsh:R, Mesenchymal stem cell, Mesenchymal Stem Cells, Diabetes Mellitus Type 1, Coculture Techniques, Rats, Glucose, Rats, Inbred Lew, Metabolic Disorders, Trans-Activators, Cancer research, lcsh:Q, Pancreatic islet transplantation, Developmental Biology
Abstract: The clinical usability of pancreatic islet transplantation for the treatment of type I diabetes, despite some encouraging results, is currently hampered by the short lifespan of the transplanted tissue. In vivo studies have demonstrated that co-transplantation of Mesenchymal Stem Cells (MSCs) with transplanted pancreatic islets is more effective with respect to pancreatic islets alone in ensuring glycemia control in diabetic rats, but the molecular mechanisms of this action are still unclear. The aim of this study was to elucidate the molecular mechanisms of the positive effect of MSCs on pancreatic islet functionality by setting up direct, indirect and mixed co-cultures. MSCs were both able to prolong the survival of pancreatic islets, and to directly differentiate into an "insulin-releasing" phenotype. Two distinct mechanisms mediated these effects: i) the survival increase was observed in pancreatic islets indirectly co-cultured with MSCs, probably mediated by the trophic factors released by MSCs; ii) MSCs in direct contact with pancreatic islets started to express Pdx1, a pivotal gene of insulin production, and then differentiated into insulin releasing cells. These results demonstrate that MSCs may be useful for potentiating pancreatic islets' functionality and feasibility.
Published: 2014

145. Valutation of human Mesenchymal Stem Cells (hMSC) effects on pancreatic islets

Author: MONFRINI, MARIANNA, DONZELLI, ELISABETTA, RODRIGUEZ MENENDEZ, VIRGINIA, TREDICI, GIOVANNI, SCUTERI, ARIANNA, Bonandrini, B, Figliuzzi, M, Remuzzi, A, Monfrini, M, Donzelli, E, RODRIGUEZ MENENDEZ, V, Bonandrini, B, Figliuzzi, M, Remuzzi, A, Tredici, G, and Scuteri, A
Subjects: hMSC, pancreatic islets, coculture
Abstract: The cell-based therapy is a promising approach to treat many degenerative diseases such as type 1 Diabetes Mellitus (T1DM). Besides the exclusive pharmacological treatment for T1DM a new approach has been recently proposed for restoring of Beta cell mass by islet transplantation. One of the principal problems of this approach is the numerical and functional loss of transplanted islets. For these reasons new strategies are studied in order to increase islets survival. In our laboratories we have already demonstrated that rat Mesenchymal Stem Cells (rMSC) are able to promote islets survival in vitro and that rMSC, if cocultured with pancreatic islets, are able to express Pdx1, a gene involved in beta cell insulin secretion. The aim of this study is to verify the effect of human Mesenchymal Stem Cells (hMSC) on the survival and function of pancreatic islets. In order to clarify which mechanism could be involved in the putative positive effect we set up different culture conditions: direct coculture, in which hMSC were in direct contact with islets; indirect coculture in which hMSC and islets shared the medium; mix cocultured in which islets were both in direct contact and shared the medium with hMSC. Preliminary results demonstrate a positive effect of hMSC on islets survival. Now we are focusing on the effect on insulin secretion regulated by hMSC in the different coculture conditions.
Published: 2014

146. Co-trasplantation of Pancreatic Islets with Mesenchymal Stem Cells promotes the functional recovery of diabetic neuropathy in vivo

Author: SCUTERI, ARIANNA, DONZELLI, ELISABETTA, MONFRINI, MARIANNA, BALLARINI, ELISA, CAROZZI, VALENTINA ALDA, CHIORAZZI, ALESSIA, CAVALETTI, GUIDO ANGELO, TREDICI, GIOVANNI, Rodriguez Menedez, V, Bianchi, R, Porretta Serapiglia, C, Silvani, S, Bonandrini, B, Figliuzzi, M, Remuzzi, A, Lauria, G, Scuteri, A, Donzelli, E, Monfrini, M, Rodriguez Menedez, V, Ballarini, E, Carozzi, V, Chiorazzi, A, Bianchi, R, Porretta Serapiglia, C, Silvani, S, Bonandrini, B, Figliuzzi, M, Remuzzi, A, Lauria, G, Cavaletti, G, and Tredici, G
Subjects: Pancreatic islet, Diabetic Neuropathy, Mesenchymal Stem Cell, BIO/16 - ANATOMIA UMANA
Abstract: Treatment of type-1diabetes with pancreatic islet transplantation is an intriguing therapeutic option, aimed to replace insulin administration, but very limited in clinical practice, mainly for the great number of islets necessary and for their short survival. Aim of this work is to verify the ability of Mesenchymal Stem Cells (MSCs) co-transplanted with Pancreatic Islets to improve the feasibility of this approach, by acting both on glycaemic control and on long term disease complications, such as the diabetic neuropathy. 5 groups were used (8 rats/group): a) healthy controls; b) Streptozotocin-induced diabetic rats; c) Diabetic rats transplanted with pancreatic islets (3000); d) Diabetic rats co-transplanted with pancreatic islets (2000) and MSCs (106); Diabetic rats treated with MSCs (106). Transplantations were performed after the assessment of neuropathic signs, such as the decrease of Nerve Conduction Velocity (NCV) and the impairment of nociceptive (thermal and mechanical) thresholds. The same parameters were evaluated two months after the transplantation. Diabetic rats transplanted only with pancreatic islets, or co-transplanted with MSCs and a suboptimal number of pancreatic islets, showed a marked and significant glycaemia value reduction, an improvement of thermal and mechanical sensitivity, and a nearly complete restoration of NCV with respect to diabetic-untreated rats. No differences were observed between diabetic rats and diabetic rats treated with only MSCs. Co-transplantation of MSCs with Pancreatic Islets allows to reduce the successful number of pancreatic islets, to obtain a better and more physiologic glycaemic control, and to induce the regression of painful neuropathy signs, thus ameliorating diabetes complications management
Published: 2014

147. Mesenchymal stem cells effect on cortical and sensory neurons exposed to toxic stimuli

Author: MONFRINI, MARIANNA, RODRIGUEZ MENENDEZ, VIRGINIA, DONZELLI, ELISABETTA, RAVASI, MADDALENA, TREDICI, GIOVANNI, SCUTERI, ARIANNA, Monfrini, M, RODRIGUEZ MENENDEZ, V, Donzelli, E, Ravasi, M, Tredici, G, and Scuteri, A
Subjects: Cortical Neuron, Mesenchymal Stem Cell, BIO/16 - ANATOMIA UMANA, Sensory Neuron, Neuroprotection
Abstract: There are promising studies which demonstrate that Mesenchymal Stem Cells (MSCs) are able to release neutrophic factors, to increase neuronal survival and as a consequence to repair nervous damages. For these reasons MSCs based therapeutic approach was proposed for diseases of both central and peripheral nervous system. In order to evaluate a putative positive effect of MSCs on neuronal damage recovery, two different experimental models were set up using cortical and sensory neurons. The toxic stimuli used were: Glutamate, whose toxicity is associated to Multiple Sclerosis; Cisplatin and Paclitaxel, chemotherapic drugs, which induce peripheral neuropathies. For the evaluation of the effect of MSCs, direct and indirect co-cultures were set up with rat MSCs (rMSCs); rMSCs Conditioned Medium effect was also evaluated. Our results demonstrate an important difference between cortical and sensory neurons in fact in term of susceptibility cortical neurons are much more sensible to drugs treatment. About sensory neurons we observed a protective action in direct co-cultures on Cisplatin and Glutamate treated neurons and in indirect co-cultures on Paclitaxel treated neurons; conditioned medium didn’t have any protective action. However direct and indirect co-cultures and condition medium were unable to protect cortical neurons form toxic drugs. These data could indicate that a possible MSCs based therapy would be more promising for treating peripheral nervous system diseases rather than central one.
Published: 2014

148. Enhanced brain targeting of engineered solid lipid nanoparticles

Author: DAL MAGRO, ROBERTA, RE, FRANCESCA, DONZELLI, ELISABETTA, CANTA, ANNALISA ROSANNA, MASSERINI, MASSIMO ERNESTO, CAVALETTI, GUIDO ANGELO, SANCINI, GIULIO ALFREDO, Ornaghi, F, Cambianica, I, Beretta, S, BRAMBILLA, ANNA, Barbero, F, Musicanti, C, Cagnotto, A, Gasco, P, DAL MAGRO, R, Ornaghi, F, Cambianica, I, Beretta, S, Re, F, Brambilla, A, Barbero, F, Musicanti, C, Cagnotto, A, Donzelli, E, Canta, A, Masserini, M, Cavaletti, G, Gasco, P, and Sancini, G
Subjects: Brain targeting, BIO/09 - FISIOLOGIA, Solid lipid nanoparticles, brain targeting, ApoE, Intratracheal instillation, Solid Lipid Nanoparticle, ApoE monomer, Blood Brain Barrier
Abstract: Introduction The blood-brain barrier (BBB) plays an important role in maintaining the homeostasis of the central nervous system and in protecting the brain from potentially harmful endogenous and exogenous compounds. Nevertheless it represents also the major obstacle for the diagnosis and therapy of brain diseases. One of the most promising strategies to overcome the limited BBB penetration of drugs and contrast agents is based on nanoparticles (NP). Lipid based NP, basically liposomes and solid lipid nanoparticles (SLN), have several advantages in terms of biocompatibility, non-immunogenicity, non-toxicity; they can be used as carrier systems [1], and they have a high blood circulation residence time [2]. Moreover their surface can be easily modified with ligands which mediate a site-specific targeting. Goal of the work The objective of present investigation was to study the effect of surface characteristics of SLN covalently coupled with the monomer of ApoE-residues (141-150) (mApoE-SLN) in promoting BBB crossing and brain targeting using both in vitro and in vivo models. Methods Radiolabelled or fluorescent dye-loaded SLN, covalently coupled by DSPE-PEG(2000)-Maleimide with the monomer of ApoE-residues (141-150) [3] and functionalized with phosphatidic acid (Aβ ligands) [4], were used in the present work and produced by Nanovector s.r.l. (Torino, Italy). In vitro evaluations were performed using cultured human cerebral microvascular endothelial cells (hCMEC/D3) obtained from Institute Cochin (INSERM, Paris, France). SLN cell uptake was monitored by confocal-laser-scanning microscopy and cell-associated fluorescence was quantified by FACS analysis. Radiochemical technique was used in order to assess the ability of ApoE monomer to enhance SLN transcellular transport across the hCMEC/D3 BBB model [5]. The in vivo biodistribution of SLN, loaded with DiR (near-infrared fluorescent cyanine dye), was evaluated by means of Fluorescent Microscopy Tomography (FMT 1500, Perkin Elmer). BALB/c male mice were intravenous (IV), intratracheal (IT) or intraperitoneal (IP) administered with 50 ul of SLN formulation and tomographic data analyses were achieved using the TrueQuant software supplied (Perkin Elmer). The total amount (in picomoles) of fluorophore in the brain region was calculated by the provided software using previously generated standards of the appropriate dye [6]. Results and Discussion We demonstrated that surface functionalization of SLN with ApoE monomer plays a major role in promoting their cellular uptake within hCMEC/D3. Cell associated fluorescence was about two-fold higher in presence of SLN-mApoE compared to unfunctionalized SLN (SLN-cys) and the same trend was observed by CLSM analysis. The ability of SLN to cross the in vitro hCMEC/D3 BBB model was assessed using dual-radiolabelled formulations. With respect to SLN-cys, the presence of monomer ApoE significantly enhanced their permeability through the cell monolayer; moreover PE values obtained with the two radiotracers were equivalent for the same SLN formulation, and about 6-fold higher for SLN-mApoE (Fig. 1). These results suggest that, at least at the dose tested, SLN cross intact the cell monolayer. In vivo results confirmed the role of monomer ApoE in sustaining the delivery of SLN to the central nervous system. In particular we demonstrated that, compared to the most common routes for drug administration (IP and IV injections), IT instillation represents the best method to guarantee the biodistribution of SLN-mApoE in the brain district and to favour their retention up to 24 hours after the administration (Fig. 2).Bronchoalveolar lavage fluid (BALF) analysis does not evidence any pro-inflammatory reaction in lungs of SLN-mApoE IT-treated mice with no alteration of the alveolar-capillary barrier permeability. Conclusions The results here obtained suggest that the SLN formulation herein analysed could represent a suitable tool for sustaining drug delivery to the brain.
Published: 2014

149. Differentiation of Mesenchymal Stem Cells towards an insulin-releasing phenotype after co-culture with Pancreatic Islets

Author: SCUTERI, ARIANNA, DONZELLI, ELISABETTA, RODRIGUEZ MENENDEZ, VIRGINIA, TREDICI, GIOVANNI, Ravasi, M, Bonandrini, B, Figliuzzi, M, Remuzzi, A, Scuteri, A, Donzelli, E, RODRIGUEZ MENENDEZ, V, Ravasi, M, Bonandrini, B, Figliuzzi, M, Remuzzi, A, and Tredici, G
Subjects: Pancreatic islet, endocrine system, BIO/16 - ANATOMIA UMANA, insulin release, differentiation, Pancreatic islets, mesenchymal stem cells, mesenchymal stem cell
Abstract: Transplantation of pancreatic islets has become a promising clinical option to treat patients with type 1 diabetes, alternative to the standard therapy with insulin injections. Islet transplantation is a minimally invasive therapeutic approach, and it allows a better metabolic control and a long-term insulin independence in more than 80% of patients (Ryan et al., 2002). However this therapeutic treatment has some side effects, such as the poor yield of pancreatic islet explants and even more the immune graft rejection, which have as a consequence the very limited lifespan of transplanted pancreatic islets. To avoid these side effects several strategies have been proposed and, besides the treatment with immunosuppressive drugs, promising results have been obtained with the use of Mesenchymal Stem cells (MSCs), already known in literature to be able to support the survival of many cell types (Scuteri et al., 2006). Several in vivo studies have demonstrated that the concurrent transplantation of pancreatic islets with MSCs reduces the number of islets required to achieve glycemic control in diabetic rats, but the mechanisms of these encouraging results are still unknown (Figliuzzi et al., 2009). For these reasons in this in vitro study we characterized the effect of co-culture of rat MSC on survival and functioning of rat pancreatic islets, by evaluating for 4 weeks: i) MSC adhesion to pancreatic islets; ii) viability of pancreatic islets co-cultured with MSCs; iii) the expression of insulin after co-culture; iv) the ability of co-cultured pancreatic islets to correctly adjust insulin release after variation of glucose concentration. Our results demonstrated that MSCs are able to adhere to pancreatic islets, but to increase only partly the pancreatic islet survival, which retain the ability to express and correctly release insulin after glucose variation in medium culture. Noteworthy that the insulin level in the medium of co-cultured pancreatic islets is always higher with respect to medium of pancreatic islets alone. The immunofluorescence analysis reveals that also MSCs (and not only pancreatic islets) are able to express insulin, but only in co-culture. These results, which justify the in vivo observation reported above, suggest that MSCs undergo to differentiation into a insulin-releasing phenotype after co-culture with pancreatic islets. We are now evaluating the molecular mechanisms which drive this effect, by analyzing the role of soluble factors and of proteins able to induce insulin expression. This study was granted by MIUR – FIRB Futuro in Ricerca 2008 RBFR08VSVI_001., Italian Journal of Anatomy and Embryology, Vol 117, No 2 (Supplement) 2012
Published: 2013
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150. Effectiveness of MSC therapeutic administration on rats affected by chronic Experimental Autoimmune Encephalomyelitis

Author: SCUTERI, ARIANNA, DONZELLI, ELISABETTA, RIGOLIO, ROBERTA, BALLARINI, ELISA, MONFRINI, MARIANNA, CHIORAZZI, ALESSIA, SALA, BARBARA, MEREGALLI, CRISTINA, TREDICI, GIOVANNI, CAVALETTI, GUIDO ANGELO, Scuteri, A, Donzelli, E, Rigolio, R, Ballarini, E, Monfrini, M, Chiorazzi, A, Sala, B, Meregalli, C, Cavaletti, G, and Tredici, G
Subjects: BIO/16 - ANATOMIA UMANA, Multiple Sclerosi, Mesenchymal STem Cells
Abstract: Multiple sclerosis (MS) is a severe chronic disease characterized by the presence of immuno-mediated demyelinating lesions and impairment of axonal transmission, which cause the reduction of nerve conduction velocity and lead to the development of neurological symptoms. Current therapy for MS is based on immunosuppressant agents, but recently Mesenchymal Stem Cells (MSCs) have been proposed as therapeutic treatment for MS, demonstrating a positive effect when administered before disease onset, mainly due to their immunomodulatory properties. Here, we investigate the therapeutic potential of MSCs into an animal model of multiple sclerosis, represented by Dark Agouti rats affected by chronic Relapsing-Remitting experimental autoimmune encephalomyelitis (EAE). In order to assess their putative effectiveness, 106 MSC were intravenously injected in EAE rats before disease onset (7 days after disease induction), to test the “preventive” schedule, or after disease onset (14 days after MSC induction), to test the “therapeutic” schedule with MSCs. Clinical score was assessed daily, and after 45 days rats were sacrificed and histological analysis of spinal cords were performed to evaluate the demyelinating lesions. Clinical score analysis demonstrated that the “preventive” schedule of treatment had no effect on EAE clinical course, while the therapeutic schedule was able to hamper relapsing phase from day 19 and till the end of the experiment (day 45) with respect to EAE group. At day 45, histological analysis performed on spinal cords of EAE rats demonstrated the presence of demyelinated plaques, assessed by Luxol fast Blue staining and by immunohystochemistry for MBP. The same lesions were present in spinal cords of rats treated with the preventive MSC administration. On the contrary the therapeutic schedule with MSCs was able to significantly reduce the extension of demyelinated areas in the spinal cords, thus confirming clinical score evaluations. These results suggested that MSCs are able to ameliorate the clinical course of EAE animals and to hamper the disease relapsing by reducing the areas of demyelinated lesions. We are now evaluating the possible mechanism of MSCs action by investigating some putative myelinating properties of MSCs.
Published: 2013

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