Human Keratinocytes Adopt Neuronal Fates After Transplantation in the Developing Rat Brain

Autor: Andrea Tenorio-Mina, Daniel Cortés, Joel Esquivel-Estudillo, Adolfo López-Ornelas, Alejandro Cabrera-Wrooman, Rolando Lara-Rodarte, Itzel Escobedo-Avila, Fernanda Vargas-Romero, Diana Toledo-Hernández, Enrique Estudillo, Juan José Acevedo-Fernández, Jesús Santa-Olalla Tapia, Iván Velasco
Jazyk: angličtina
Rok vydání: 2021
Předmět:
Zdroj: Cell Transplantation, Vol 30 (2021)
Druh dokumentu: article
ISSN: 1555-3892
09636897
DOI: 10.1177/0963689720978219
Popis: Human skin contains keratinocytes in the epidermis. Such cells share their ectodermal origin with the central nervous system (CNS). Recent studies have demonstrated that terminally differentiated somatic cells can adopt a pluripotent state, or can directly convert its phenotype to neurons, after ectopic expression of transcription factors. In this article we tested the hypothesis that human keratinocytes can adopt neural fates after culturing them in suspension with a neural medium. Initially, keratinocytes expressed Keratins and Vimentin. After neural induction, transcriptional upregulation of NESTIN, SOX2, VIMENTIN, SOX1, and MUSASHI1 was observed, concomitant with significant increases in NESTIN detected by immunostaining. However, in vitro differentiation did not yield the expression of neuronal or astrocytic markers. We tested the differentiation potential of control and neural-induced keratinocytes by grafting them in the developing CNS of rats, through ultrasound-guided injection. For this purpose, keratinocytes were transduced with lentivirus that contained the coding sequence of green fluorescent protein. Cell sorting was employed to select cells with high fluorescence. Unexpectedly, 4 days after grafting these cells in the ventricles, both control and neural-induced cells expressed green fluorescent protein together with the neuronal proteins βIII-Tubulin and Microtubule-Associated Protein 2. These results support the notion that in vivo environment provides appropriate signals to evaluate the neuronal differentiation potential of keratinocytes or other non-neural cell populations.
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