Novel carbon film induces precocious calcium oscillation to promote neuronal cell maturation

Ludwig, Anastasia; Kesaf, Sebnem; Heikkinen, Joonas; Sukhanova, Tatiana; Khakipoor, Shokoufeh; Molinari, Florence; Pellegrino, Christophe; Kim, Sung I.; Han, Jeon G.; Huttunen, Henri J.; Lauri, Sari E.; Franssila, Sami; Jokinen, Ville; Rivera, Claudio

Helda

Helsingin yliopisto

Helsingfors universitet

University of Helsinki

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Novel carbon film induces precocious calcium oscillation to promote neuronal cell maturation

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http://hdl.handle.net/10138/321277

https://doi.org/10.1038/s41598-020-74535-6

Lähdeviite

Ludwig , A , Kesaf , S , Heikkinen , J , Sukhanova , T , Khakipoor , S , Molinari , F , Pellegrino , C , Kim , S I , Han , J G , Huttunen , H J , Lauri , S E , Franssila , S , Jokinen , V & Rivera , C 2020 , ' Novel carbon film induces precocious calcium oscillation to promote neuronal cell maturation ' , Scientific Reports , vol. 10 , no. 1 , 17661 . https://doi.org/10.1038/s41598-020-74535-6

Julkaisun nimi:	Novel carbon film induces precocious calcium oscillation to promote neuronal cell maturation
Tekijä:	Ludwig, Anastasia; Kesaf, Sebnem; Heikkinen, Joonas; Sukhanova, Tatiana; Khakipoor, Shokoufeh; Molinari, Florence; Pellegrino, Christophe; Kim, Sung I.; Han, Jeon G.; Huttunen, Henri J.; Lauri, Sari E.; Franssila, Sami; Jokinen, Ville; Rivera, Claudio
Tekijän organisaatio:	Faculty Common Matters (Faculty of Biology and Environmental Sciences) Neuroscience Center Synaptic Plasticity and Development Biosciences Henri Juhani Huttunen / Principal Investigator Physiology and Neuroscience (-2020) Molecular and Integrative Biosciences Research Programme Division of Pharmaceutical Chemistry and Technology Helsinki In Vivo Animal Imaging Platform (HAIP) Claudio Rivera Baeza / Principal Investigator
Päiväys:	2020-10-19
Kieli:	eng
Sivumäärä:	9
Kuuluu julkaisusarjaan:	Scientific Reports
ISSN:	2045-2322
DOI-tunniste:	https://doi.org/10.1038/s41598-020-74535-6
URI:	http://hdl.handle.net/10138/321277
Tiivistelmä:	Different types of carbon materials are biocompatible with neural cells and can promote maturation. The mechanism of this effect is not clear. Here we have tested the capacity of a carbon material composed of amorphous sp3 carbon backbone, embedded with a percolating network of sp2 carbon domains to sustain neuronal cultures. We found that cortical neurons survive and develop faster on this novel carbon material. After 3 days in culture, there is a precocious increase in the frequency of neuronal activity and in the expression of maturation marker KCC2 on carbon films as compared to a commonly used glass surface. Accelerated development is accompanied by a dramatic increase in neuronal dendrite arborization. The mechanism for the precocious maturation involves the activation of intracellular calcium oscillations by the carbon material already after 1 day in culture. Carbon-induced oscillations are independent of network activity and reflect intrinsic spontaneous activation of developing neurons. Thus, these results reveal a novel mechanism for carbon material-induced neuronal survival and maturation.
Avainsanat:	3112 Neurosciences 1184 Genetics, developmental biology, physiology NEURAL STEM-CELLS DIFFERENTIATION NANOMATERIALS STIMULATION NANOTUBES FREQUENCY
Vertaisarvioitu:	Kyllä
Tekijänoikeustiedot:	cc_by
Pääsyrajoitteet:	openAccess
Rinnakkaistallennettu versio:	publishedVersion

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