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Literature DB >> 26751821

Thermally reduced graphene is a permissive material for neurons and astrocytes and de novo neurogenesis in the adult olfactory bulb in vivo.

Çağla Defteralı¹, Raquel Verdejo², Laura Peponi², Eduardo D Martín³, Ricardo Martínez-Murillo⁴, Miguel Ángel López-Manchado², Carlos Vicario-Abejón⁵.

Abstract

Graphene and graphene-based nanomaterials (GBNs) are being investigated as potential substrates for the growth of neural stem cells (NSCs), neurons and glia in cell culture models. In contrast, reports testing the effects of graphene directly with adult neural cells in vivo are missing. Here we studied the biocompatibility of thermally reduced graphene (TRG) with neurons and glia, as well as with the generation of new neurons in the adult brain in vivo. TRG injected in the brain together with a retroviral vector expressing GFP to label dividing progenitor cells in the core of the adult olfactory bulb (OB) did not alter de novo neurogenesis, neuronal and astrocyte survival nor did it produce a microglial response. These findings indicate that TRG may be a biocompatible material with neuronal and glial cells in vivo and support its use in studies of brain repair and function.

Entities: Chemical Disease

Keywords: Astrocytes; Biocompatibility; Brain; Graphene; Neurogenesis; Neurons

Mesh：

Substances：

Year: 2015 PMID： 26751821 DOI： 10.1016/j.biomaterials.2015.12.010

Source DB: PubMed Journal: Biomaterials ISSN： 0142-9612 Impact factor: 12.479

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Cited

10 in total

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Authors: Negar Mansouri; Said F Al-Sarawi; Jagan Mazumdar; Dusan Losic
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2. Enhancement of neural stem cell survival, proliferation and differentiation by IGF-1 delivery in graphene oxide-incorporated PLGA electrospun nanofibrous mats.

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Journal: RSC Adv Date: 2019-03-12 Impact factor: 3.361

3. In Vitro Evaluation of Biocompatibility of Uncoated Thermally Reduced Graphene and Carbon Nanotube-Loaded PVDF Membranes with Adult Neural Stem Cell-Derived Neurons and Glia.

Authors: Çağla Defteralı; Raquel Verdejo; Shahid Majeed; Adriana Boschetti-de-Fierro; Héctor R Méndez-Gómez; Eva Díaz-Guerra; Daniel Fierro; Kristian Buhr; Clarissa Abetz; Ricardo Martínez-Murillo; Daniela Vuluga; Michaël Alexandre; Jean-Michel Thomassin; Christophe Detrembleur; Christine Jérôme; Volker Abetz; Miguel Ángel López-Manchado; Carlos Vicario-Abejón
Journal: Front Bioeng Biotechnol Date: 2016-12-06

Review 4. Graphene-Derived Materials Interfacing the Spinal Cord: Outstanding in Vitro and in Vivo Findings.

Authors: Ana Domínguez-Bajo; Ankor González-Mayorga; Elisa López-Dolado; María C Serrano
Journal: Front Syst Neurosci Date: 2017-09-27

5. Favorable Biological Responses of Neural Cells and Tissue Interacting with Graphene Oxide Microfibers.

Authors: Ankor González-Mayorga; Elisa López-Dolado; María C Gutiérrez; Jorge E Collazos-Castro; M Luisa Ferrer; Francisco Del Monte; María C Serrano
Journal: ACS Omega Date: 2017-11-21

6. Graphene oxide-composited chitosan scaffold contributes to functional recovery of injured spinal cord in rats.

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Review 7. Opportunities Offered by Graphene Nanoparticles for MicroRNAs Delivery for Amyotrophic Lateral Sclerosis Treatment.

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8. Morphological Diversity of Calretinin Interneurons Generated From Adult Mouse Olfactory Bulb Core Neural Stem Cells.

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Journal: Front Cell Dev Biol Date: 2022-06-29

Review 9. Nanomedicine and graphene-based materials: advanced technologies for potential treatments of diseases in the developing nervous system.

Authors: Giada Cellot; Audrey Franceschi Biagioni; Laura Ballerini
Journal: Pediatr Res Date: 2021-09-03 Impact factor: 3.953

Review 10. Interfacing Graphene-Based Materials With Neural Cells.

Authors: Mattia Bramini; Giulio Alberini; Elisabetta Colombo; Martina Chiacchiaretta; Mattia L DiFrancesco; José F Maya-Vetencourt; Luca Maragliano; Fabio Benfenati; Fabrizia Cesca
Journal: Front Syst Neurosci Date: 2018-04-11

10 in total