Visualization of cytoplasmic diffusion within living myelin sheaths of CNS white matter axons using microinjection of the fluorescent dye Lucifer Yellow

The compactness of myelin allows for efficient insulation defining rapid propagation of action potentials, but also raises questions about how cytoplasmic access to its membranes is achieved, which is critical for physiological activity. Understanding the organization of cytoplasmic (‘water’) spaces of myelin is also important for diffusion MRI studies of CNS white matter. Using longitudinal slices of mature rat spinal cord, we monitored the diffusion of the water-soluble fluorescent dye Lucifer Yellow injected into individual oligodendrocytes or internodal myelin. We show that living myelin sheaths on CNS axons are fenestrated by a network of diffusionally interconnected cytoplasmic ‘pockets’ (1.9 ± 0.2 pockets per 10 μm sheath length, n = 58) that included Schmidt–Lanterman clefts (SLCs) and numerous smaller compartments. 3-D reconstructions of these cytoplasmic networks show that the outer cytoplasmic layer of CNS myelin is cylindrically ‘encuffing’, which differs from EM studies using fixed tissue. SLCs were found in different ‘open states’ and remained stable within a 1–2 hour observation period. Unlike the peripheral nervous system, where similarly small (< 500 Da) molecules diffuse along the whole myelin segment within a few minutes, in mature CNS this takes more than one hour. The slower cytoplasmic diffusion in CNS myelin possibly contributes to its known vulnerability to injury and limited capacity for repair. Our findings point to an elaborate cytoplasmic access to compact CNS myelin. These results could be of relevance to MRI studies of CNS white matter and to CNS repair/regeneration strategies.

Research Highlights
► The cytoplasmic spaces of living CNS myelin are more extensive than currently thought.
► The paper presents unique 3-D images of cytoplasmic spaces of internodal myelin.
► The results show the temporal dynamics of diffusion within individual myelin sheaths.
► The diffusion along the CNS myelin sheaths is markedly slower compared to PNS myelin.