Researchers create neurons that can be integrated into human brain tissue

UB researchers create neurons that can be integrated into human brain tissue
Cortically fated neuroepithelial-like stem (lt-NES) cells, which are able to form functional synaptic networks in cell culture, differentiate to mature layer-specific cortical neurons when transplanted ex vivo onto organotypic cultures of adult human cortex. Credit: Universidad de Barcelona

A team of researchers from the Institute of Neurosciences (UBneuro) and Institute of Complex Systems (UBICS) of the University of Barcelona has demonstrated that neurons can be generated from skin cells of a human donor using a cellular reprogramming technology. According to the obtained results, these neurons are able to integrate into human brain tissue when transplanted into a small piece of the brain from a human donor.

Using state-of-the-art technology including virus-based monosynaptic neuronal tracing and electrophysiological recordings, researchers demonstrated that grafted cells integrate into an already established neuronal network, present in a slice of brain cortex from a human donor, receiving inputs and establishing synaptic contacts with the neurons of the slice.

"This is a very important advance in the treatment of brain damage, because most of the studies carried out to demonstrate the feasibility of stem cell transplantation as therapy have been conducted using animal models, such as mice or rats. In this study, it has been established a method to prove that these therapies are also efficient when transplanting into ," says Daniel Tornero, professor at the University of Barcelona and member of the Institute of Neurosciences of the UB. "Moreover, the fact that grafted cells can be obtained from human skin cells allow for allogenic transplantation, i.e. transplantation of cells obtained from the same patient, avoiding graft rejection and associated with this kind of therapies."

The researcher notes that thanks to the collaboration with Professor Jordi Soriano, from the Faculty of Physics of UB, they combined stem cell biology techniques with physical perspective in the analysis of neuronal network functionality. This collaboration allowed the researchers to reach a better understand the complexity of the experimental model and delineate future strategies for therapeutic treatments.

The study, recently published in the Journal Stem Cells Translational Medicine, has been carried out in collaboration with the laboratory of Professor Zaal Kokaia at the Lund Stem Cell Center (Sweden).

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More information: Marita Grønning Hansen et al. Grafted human pluripotent stem cell‐derived cortical neurons integrate into adult human cortical neural circuitry, STEM CELLS Translational Medicine (2020). DOI: 10.1002/sctm.20-0134
Citation: Researchers create neurons that can be integrated into human brain tissue (2020, August 27) retrieved 2 October 2022 from
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