Guidance landscapes unveiled by quantitative proteomics to control reinnervation in adult visual system.
Noemie VilallongueJulia SchaefferAnne-Marie HesseCéline DelpechBéatrice BlotAntoine PaccardElise PlissonnierBlandine ExcoffierYohann CoutStephane BelinHomaira NawabiPublished in: Nature communications (2022)
In the injured adult central nervous system (CNS), activation of pro-growth molecular pathways in neurons leads to long-distance regeneration. However, most regenerative fibers display guidance defects, which prevent reinnervation and functional recovery. Therefore, the molecular characterization of the proper target regions of regenerative axons is essential to uncover the modalities of adult reinnervation. In this study, we use mass spectrometry (MS)-based quantitative proteomics to address the proteomes of major nuclei of the adult visual system. These analyses reveal that guidance-associated molecules are expressed in adult visual targets. Moreover, we show that bilateral optic nerve injury modulates the expression of specific proteins. In contrast, the expression of guidance molecules remains steady. Finally, we show that regenerative axons are able to respond to guidance cues ex vivo, suggesting that these molecules possibly interfere with brain target reinnervation in adult. Using a long-distance regeneration model, we further demonstrate that the silencing of specific guidance signaling leads to rerouting of regenerative axons in vivo. Altogether, our results suggest ways to modulate axon guidance of regenerative neurons to achieve circuit repair in adult.
Keyphrases
- stem cells
- mass spectrometry
- mesenchymal stem cells
- cell therapy
- childhood cancer
- optic nerve
- poor prognosis
- magnetic resonance imaging
- multiple sclerosis
- spinal cord
- magnetic resonance
- young adults
- spinal cord injury
- ms ms
- tissue engineering
- blood brain barrier
- bone marrow
- genome wide
- single cell
- binding protein
- white matter