3D model for human glia conversion into subtype-specific neurons, including dopamine neurons
Summary
Two-dimensional neuronal cultures have a limited ability to recapitulate the in vivo environment of the brain. Here, we introduce a three-dimensional in vitro model for human glia-to-neuron conversion, surpassing the spatial and temporal constrains of two-dimensional cultures. Focused on direct conversion to induced dopamine neurons (iDANs) relevant to Parkinson disease, the model generates functionally mature iDANs in 2 weeks and allows long-term survival. As proof of concept, we use single-nucleus RNA sequencing and molecular lineage tracing during iDAN generation and find that all glial subtypes generate neurons and that conversion relies on the coordinated expression of three neural conversion factors. We also show the formation of mature and functional iDANs over time. The model facilitates molecular investigations of the conversion process to enhance understanding of conversion outcomes and offers a system for in vitro reprogramming studies aimed at advancing alternative therapeutic strategies in the diseased brain. Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.
| Authors | Giacomoni J, Bruzelius A, Habekost M, Kajtez J, Ottosson DR, Fiorenzano A, Storm P, Parmar M |
|---|---|
| Journal | Cell reports methods |
| Publication Date | 2024 Sep 16;4(9):100845 |
| PubMed | 39236715 |
| PubMed Central | PMC11440053 |
| DOI | 10.1016/j.crmeth.2024.100845 |