Direct neuronal conversion describes the process of generating induced neurons from somatic cells such as fibroblasts by overexpressing cell type-specific transcription factors, microRNAs or by culturing in the presence of small molecules. This was first achieved by expressing Brn2, Ascl1 and Myt1L in mouse fibroblasts, and was later achieved in human cells by the inclusion of additional factors such as NeuroD1. Here, we present the first protocol for directly converting porcine fibroblasts into induced neurons. We used lentivirus-mediated delivery of previously identified neuron-specifying transcription factors and microRNAs and evaluated morphology and neuron marker expression after ten days of conversion. We found that Ascl1 and microRNAs, miR-9/9* and miR-124 together generated more neuronal cells than other conditions tested. The porcine induced neurons expressed common mature markers such as MAP2 and Synaptophysin after four weeks of conversion. Transcriptomic analysis revealed that fibroblast-specific signatures were silenced early in the conversion process, while the neuron-specific genes became more abundant during conversion. We generated a heterogeneous population of glutamatergic and GABAergic neurons.
Keywords: Direct reprogramming; Disease modelling; MicroRNA; Neuronal conversion; Porcine induced neurons; Regenerative medicine.
Copyright © 2020 The Author(s). Published by Elsevier B.V. All rights reserved.