INTRODUCTION: The use of biomaterials allows to generate active biophysical signals for directing stem cell fate through 3D microscaffolds, such as the one named “Nichoid” [1]. The aim of this study was to investigate: i) the proliferation, differentiation and stemness properties of neural precursor cells (NPCs) [2, 3] following their cultivation in the Nichoid substrate; ii) the therapeutic effect and safety in vivo of NPCs cultivated in the Nichoid in preclinical experimental model of Parkinson’s Disease (PD). METHODS: Nichoids were fabricated by 2PP onto circular glass coverslips using a home-made SZ2080 photoresist. NPCs were grown inside the Nichoid for 7 days (1x104 cells/cm2), counted and characterized with immunofluorescence, western blot, and Real Time PCR analysis. NPCs were transplanted in a murine experimental model of PD after a 7 days’ growth inside the Nichoid. Parkinsonism was induced by the intraperitoneal administration of MPTP in C57/bl mice (Fig.1) [3]. RESULTS: NPCs grown inside the Nichoid create a 3D carpet expanding inside the scaffold. 7 days after plating, cells grown inside the Nichoid show a significantly higher cell viability and proliferation than in normal floating culture conditions. Furthermore, after being re-plated in floating conditions for 7 more days, the cells formed smaller but more abundant neurospheres respect to control. The replated cells, analyzed by immunofluorescence, Real Time-PCR and Western blot, demonstrate an increase in stemness markers. The therapeutic potential and safety of Nichoid-grown NPCs was evaluated by their intrastriatal infusion (7x104 cells) in the brain of PD affected mice. Behavioral performances were evaluated with two different tests showing that Nichoid-grown NPCs promoted the recovery of PD symptoms better than NPCs maintained in normal floating conditions. DISCUSSION & CONCLUSIONS: Stem cells demonstrated an increase in stemness potential when grown inside the Nichoid, showing great promise and strong application in the field of regenerative medicine applied to neurodegenerative disease. ACKNOWLEDGEMENTS: Financial support was received from “Neurogel-en-Marche” Foundation (France) to SC; Fondazione “Romeo and Enrica Invernizzi” to AMDG. ERC grant NICHOID, G.A. 646990 and NICHOIDS, G.A. 754467. REFERENCES [1]Raimondi et al. Acta Biomater. 2013;9(1):4579-84. [2]Carelli et al. Cell Transplant. 2015;24(4):703-19. [3]Carelli et al. Neuropharmacol. 2017;119:76-90.
Therapeutic Effect of Neural Progenitor cells expanded in the 3D nano-engineered Nichoid substrate in a Parkinson’s disease preclinical model / S. Carelli, T. Giallongo, F. Rey, T. Zandrini, G. Cerullo, R. Osellame, A.M. Di Giulio, M.T. Raimondi. ((Intervento presentato al convegno Termis EU : 27 - 31 May tenutosi a Rodi (Grecia) nel 2019.
Therapeutic Effect of Neural Progenitor cells expanded in the 3D nano-engineered Nichoid substrate in a Parkinson’s disease preclinical model
S. Carelli;T. Giallongo;F. Rey;A.M. Di Giulio;
2019
Abstract
INTRODUCTION: The use of biomaterials allows to generate active biophysical signals for directing stem cell fate through 3D microscaffolds, such as the one named “Nichoid” [1]. The aim of this study was to investigate: i) the proliferation, differentiation and stemness properties of neural precursor cells (NPCs) [2, 3] following their cultivation in the Nichoid substrate; ii) the therapeutic effect and safety in vivo of NPCs cultivated in the Nichoid in preclinical experimental model of Parkinson’s Disease (PD). METHODS: Nichoids were fabricated by 2PP onto circular glass coverslips using a home-made SZ2080 photoresist. NPCs were grown inside the Nichoid for 7 days (1x104 cells/cm2), counted and characterized with immunofluorescence, western blot, and Real Time PCR analysis. NPCs were transplanted in a murine experimental model of PD after a 7 days’ growth inside the Nichoid. Parkinsonism was induced by the intraperitoneal administration of MPTP in C57/bl mice (Fig.1) [3]. RESULTS: NPCs grown inside the Nichoid create a 3D carpet expanding inside the scaffold. 7 days after plating, cells grown inside the Nichoid show a significantly higher cell viability and proliferation than in normal floating culture conditions. Furthermore, after being re-plated in floating conditions for 7 more days, the cells formed smaller but more abundant neurospheres respect to control. The replated cells, analyzed by immunofluorescence, Real Time-PCR and Western blot, demonstrate an increase in stemness markers. The therapeutic potential and safety of Nichoid-grown NPCs was evaluated by their intrastriatal infusion (7x104 cells) in the brain of PD affected mice. Behavioral performances were evaluated with two different tests showing that Nichoid-grown NPCs promoted the recovery of PD symptoms better than NPCs maintained in normal floating conditions. DISCUSSION & CONCLUSIONS: Stem cells demonstrated an increase in stemness potential when grown inside the Nichoid, showing great promise and strong application in the field of regenerative medicine applied to neurodegenerative disease. ACKNOWLEDGEMENTS: Financial support was received from “Neurogel-en-Marche” Foundation (France) to SC; Fondazione “Romeo and Enrica Invernizzi” to AMDG. ERC grant NICHOID, G.A. 646990 and NICHOIDS, G.A. 754467. REFERENCES [1]Raimondi et al. Acta Biomater. 2013;9(1):4579-84. [2]Carelli et al. Cell Transplant. 2015;24(4):703-19. [3]Carelli et al. Neuropharmacol. 2017;119:76-90.
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