Direct reprogramming or cell-fate conversion across cell lineages emerges as an innovative approach toward cell-based therapies for regenerative medicine. In the CNS, direct lineage reprogramming of non-neuronal cells into clinically relevant neurons represents a highly innovative strategy to regenerate lost neurons for brain repair in several neurological disorders (for review see Heinrich et al., Nature Cell Biol, 2015 and Vignoles et al., Trends Mol Med, 2019). Along this line, we contributed important work by demonstrating that mouse astroglia can be directly reprogrammed in vitro to generate functional induced neurons (iNs) with different neurotransmitter identity (Heinrich et al., 2010; Heinrich et al., 2011). A major challenge was the translation of these findings obtained in the culture dish into the context of the adult brain in vivo. We showed that NG2 glia can be converted into iNs in the adult mouse cortex in vivo and following acute invasive injury (Heinrich et al., 2014).
Based on these studies our current research aims now at reprogramming glial cells residing within the injured brain –in pathological conditions– into functional iNs that:
| Year | Authors | Title | Journal | PubMed | |
|---|---|---|---|---|---|
| 2025 | d'Orange M, Lentini C, Heinrich C | Retrovirus-Mediated Reprogramming of Endogenous Hippocampal Glia into GABAergic Induced Neurons | Methods Mol Biol | ||
| 2024 | Foucault L, Capeliez T, Angonin D, Lentini C, Bezin L, Heinrich C, Parras C, Donega V, Marcy G, Raineteau O | Neonatal brain injury unravels transcriptional and signaling changes underlying the reactivation of cortical progenitors | Cell Rep | ||
| 2023 | Delcourte S, Bouloufa A, Rovera R, Bétry C, Abrial E, Dkhissi-Benyahya O, Heinrich C, Marcy G, Raineteau O, Haddjeri N, Lucas G, Etiévant A | Chemogenetic activation of prefrontal astroglia enhances recognition memory performance in rat | Biomed Pharmacother | ||
| 2023 | Marcy G, Foucault L, Babina E, Capeliez T, Texeraud E, Zweifel S, Heinrich C, Hernandez-Vargas H, Parras C, Jabaudon D, Raineteau O | Single-cell analysis of the postnatal dorsal V-SVZ reveals a role for Bmpr1a signaling in silencing pallial germinal activity | Sci Adv | ||
| 2022 | Studer F, Jarre G, Pouyatos B, Nemoz C, Brauer-Krisch E, Muzelle C, Serduc R, Heinrich C*, Depaulis A*, *equal participation | Aberrant neuronal connectivity in the cortex drives generation of seizures in rat Absence Epilepsy. | Brain | ||
| 2021 | Célia Lentini, Marie d'Orange, Nicolás Marichal, Marie-Madeleine Trottmann, Rory Vignoles, Louis Foucault, Charlotte Verrier, Céline Massera, Olivier Raineteau, Karl-Klaus Conzelmann, Sylvie Rival-Gervier, Antoine Depaulis, Benedikt Berninger, Christophe Heinrich | Reprogramming reactive glia into interneurons reduces chronic seizure activity in a mouse model of mesial temporal lobe epilepsy | Cell Stem Cell | ||
| 2019 | Vignoles R, Lentini C, d'Orange M, Heinrich C | Direct Lineage Reprogramming for Brain Repair: Breakthroughs and Challenges | Trends Mol Med | ||
| 2018 | Zweifel S, Marcy G, Lo Guidice Q, Li D, Heinrich C, Azim K, Raineteau O | HOPX Defines Heterogeneity of Postnatal Subventricular Zone Neural Stem Cells | Stem Cell Reports | ||
| 2016 | Gascon S, Murenu E, Masserdotti G, Ortega F, Russo GL, Petrik D, Deshpande A, Heinrich C, Karow M, Robertson SP, Schroeder T, Beckers J, Irmler M, Berndt C, Angeli JP, Conrad M, Berninger B, Götz M | Identification and Successful Negotiation of a Metabolic Checkpoint in Direct Neuronal Reprogramming | Cell Stem Cell | ||
| 2015 | Heinrich C, Spagnoli FM, Berninger B | In vivo reprogramming for tissue repair | Nat Cell Biol |
