| Reactive oxygen species regulate axonal regeneration through the release of exosomal NADPH oxidase 2 complexes into injured axons A Hervera, F De Virgiliis, I Palmisano, L Zhou, E Tantardini, G Kong, ... Nature cell biology 20 (3), 307-319, 2018 | 281 | 2018 |
| The gut metabolite indole-3 propionate promotes nerve regeneration and repair E Serger, L Luengo-Gutierrez, JS Chadwick, G Kong, L Zhou, G Crawford, ... Nature 607 (7919), 585-592, 2022 | 136 | 2022 |
| Cbp-dependent histone acetylation mediates axon regeneration induced by environmental enrichment in rodent spinal cord injury models TH Hutson, C Kathe, I Palmisano, K Bartholdi, A Hervera, F De Virgiliis, ... Science translational medicine 11 (487), eaaw2064, 2019 | 105 | 2019 |
| Epigenomic signatures underpin the axonal regenerative ability of dorsal root ganglia sensory neurons I Palmisano, MC Danzi, TH Hutson, L Zhou, E McLachlan, E Serger, ... Nature neuroscience 22 (11), 1913-1924, 2019 | 82 | 2019 |
| The MDM4/MDM2-p53-IGF1 axis controls axonal regeneration, sprouting and functional recovery after CNS injury Y Joshi, MG Sória, G Quadrato, G Inak, L Zhou, A Hervera, KI Rathore, ... Brain 138 (7), 1843-1862, 2015 | 57 | 2015 |
| Reversible CD8 T cell–neuron cross-talk causes aging-dependent neuronal regenerative decline L Zhou, G Kong, I Palmisano, MT Cencioni, M Danzi, F De Virgiliis, ... Science 376 (6594), eabd5926, 2022 | 41 | 2022 |
| Enriched conditioning expands the regenerative ability of sensory neurons after spinal cord injury via neuronal intrinsic redox signaling F De Virgiliis, TH Hutson, I Palmisano, S Amachree, J Miao, L Zhou, ... Nature communications 11 (1), 6425, 2020 | 40 | 2020 |
| PP4‐dependent HDAC3 dephosphorylation discriminates between axonal regeneration and regenerative failure A Hervera, L Zhou, I Palmisano, E McLachlan, G Kong, TH Hutson, ... The EMBO journal 38 (13), e101032, 2019 | 38 | 2019 |
| AMPK controls the axonal regenerative ability of dorsal root ganglia sensory neurons after spinal cord injury G Kong, L Zhou, E Serger, I Palmisano, F De Virgiliis, TH Hutson, ... Nature Metabolism 2 (9), 918-933, 2020 | 33 | 2020 |
| CBP/p300 activation promotes axon growth, sprouting, and synaptic plasticity in chronic experimental spinal cord injury with severe disability F Müller, F De Virgiliis, G Kong, L Zhou, E Serger, J Chadwick, ... PLoS biology 20 (9), e3001310, 2022 | 18 | 2022 |
| Publisher Correction: Reactive oxygen species regulate axonal regeneration through the release of exosomal NADPH oxidase 2 complexes into injured axons A Hervera, F De Virgiliis, I Palmisano, L Zhou, E Tantardini, G Kong, ... Nature cell biology 20 (9), 1098-1098, 2018 | 17 | 2018 |
| Cyclic stretch of either PNS or CNS located nerves can stimulate neurite outgrowth V Kampanis, B Tolou-Dabbaghian, L Zhou, W Roth, R Puttagunta Cells 10 (1), 32, 2020 | 7 | 2020 |
| The circadian clock time tunes axonal regeneration F De Virgiliis, F Mueller, I Palmisano, JS Chadwick, L Luengo-Gutierrez, ... Cell Metabolism 35 (12), 2153-2164. e4, 2023 | 5 | 2023 |
| Combinatorial small molecule-mediated activation of CBP/p300 with environmental enrichment in chronic severe experimental spinal cord injury to enable axon regeneration and … F Mueller, F De Virgiliis, G Kong, L Zhou, E Serger, J Chadwick, ... bioRxiv, 2021.06. 07.447349, 2021 | 2 | 2021 |
| The Intermittent Fasting‐Dependent Gut Microbial Metabolite Indole‐3 Propionate Promotes Nerve Regeneration and Recovery after Injury S Di Giovanni, E Serger, J Chadwick Research Square. Published online, 2020 | 2 | 2020 |
| AMPK controls the axonal regenerative ability of dorsal root ganglia sensory neurons after spinal cord injury. Nat Metab. 2020; 2 (9): 918–33 G Kong, L Zhou, E Serger, I Palmisano, F De Virgiliis, TH Hutson Epub 2020/08/12. https://doi. org/10.1038/s42255-020-0252-3 PMID: 32778834, 0 | 2 | |
| Three-dimensional chromatin mapping of sensory neurons reveals that cohesin-dependent genomic domains are required for axonal regeneration I Palmisano, T Liu, W Gao, L Zhou, M Merkenschlager, F Muller, ... bioRxiv, 2024.06. 09.597974, 2024 | | 2024 |
| Use of CXCL13 binding molecules to promote peripheral nerve regeneration S Di Giovanni, L Zhou US Patent 11,702,470, 2023 | | 2023 |
| Leptin Signalling Promotes Axonal Regeneration in the Peripheral and Central Nervous System J Chadwick, E Serger, G Kong, L Zhou, F Mueller, I Palmisano, P Liddle, ... Available at SSRN 4390012, 2023 | | 2023 |
| The circadian clock is a pacemaker of the axonal regenerative ability F De Virgiliis, F Mueller, I Palmisano, JS Chadwick, L Luengo Gutierrez, ... bioRxiv, 2023.08. 07.552230, 2023 | | 2023 |
