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Nabel, Alisha L.; Teich, Laurin ORCID logoORCID: https://orcid.org/0009-0003-9281-2056; Wohlfrom, Hilde; Alexandrova, Olga; Heß, Martin ORCID logoORCID: https://orcid.org/0000-0002-7751-9711; Pecka, Michael ORCID logoORCID: https://orcid.org/0000-0001-8960-1651 und Grothe, Benedikt ORCID logoORCID: https://orcid.org/0000-0001-7317-0615 (2024): Development of myelination and axon diameter for fast and precise action potential conductance. In: Glia [PDF, 7MB]

Abstract

Axons of globular bushy cells in the cochlear nucleus convey hyper-accurate signals to the superior olivary complex, the initial site of binaural processing via comparably thick axons and the calyx of the Held synapse. Bushy cell fibers involved in hyper-accurate binaural processing of low-frequency sounds are known to have an unusual internode length-to-axon caliber ratio (L/d) correlating with higher conduction velocity and superior temporal precision of action potentials. How the L/d-ratio develops and what determines this unusual myelination pattern is unclear. Here we describe a gradual developmental transition from very simple to complex, mature nodes of Ranvier on globular bushy cell axons during a 2-week period starting at postnatal day P6/7. The molecular composition of nodes matured successively along the axons from somata to synaptic terminals with morphologically and molecularly mature nodes appearing almost exclusively after hearing onset. Internodal distances are initially coherent with the canonical L/d-ratio of ~100. Several days after hearing onset, however, an over-proportional increase in axon caliber occurs in cells signaling low-frequency sounds which alters their L/d ratio to ~60. Hence, oligodendrocytes initially myelinating axons according to their transient axon caliber but a subsequent differential axon thickening after hearing onset results in the unusual myelination pattern.

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