Abstract
The two types of spiral ganglion neurons (SGNs), types I and II, innervate inner hair cells and outer hair cells, respectively, within the mammalian cochlea and send another process back to cochlear nuclei in the hindbrain. Studying these two neuronal types has been made easier with the identification of unique molecular markers. One of these markers, peripherin, was shown using antibodies to be present in all SGNs initially but becomes specific to type II SGNs during maturation. We used mice with fluorescently labeled peripherin (Prph-eGFP) to examine peripherin expression in SGNs during development and in aged mice. Using these mice, we confirm the initial expression of Prph-eGFP in both types I and II neurons and eventual restriction to only type II perikarya shortly after birth. However, while Prph-eGFP is uniquely expressed within type II cell bodies by P8, both types I and II peripheral and central processes continue to express Prph-eGFP for some time before becoming downregulated. Only at P30 was there selective type II Prph-eGFP expression in central but not peripheral processes. By 9 months, only the type II cell bodies and more distal central processes retain Prph-eGFP expression. Our results show that Prph-eGFP is a reliable marker for type II SGN cell bodies beyond P8; however, it is not generally a suitable marker for type II processes, except for central processes beyond P30. How the changes in Prph-eGFP expression relate to subsequent protein expression remains to be explored.
Highlights
The mammalian auditory sensory organ, the cochlea, contains the neurosensory cells specific for the transduction and transmission of sound stimuli to the brain
All spiral ganglion neurons (SGNs) cell bodies are initially positive for Prph-eGFP at E18.5 (Figure 1A), consistent with previous work using peripherin antibodies (Hafidi et al, 1993; Hafidi, 1998; Nayagam et al, 2011)
At P8, Prph-eGFP has become restricted to the type II SGNs, with no expression observed in type I cell bodies (Figures 1C–C )
Summary
The mammalian auditory sensory organ, the cochlea, contains the neurosensory cells specific for the transduction and transmission of sound stimuli to the brain. A single IHC is innervated by multiple type I fibers, whereas a single type II neuron may innervate 10 or more OHCs (Hafidi, 1998; Simmons and Liberman, 1988; Rubel and Fritzsch, 2002; Weisz et al, 2009; Coate and Kelley, 2013) Both types I and II SGNs project to three regions of the cochlear nucleus: the anteroventral cochlear nucleus (AVCN), posteroventral cochlear nucleus (PVCN), and the dorsal cochlear nucleus (DCN), maintaining the tonotopic organization reflected in the cochlea (Brown et al, 1988; Nayagam et al, 2011; Fritzsch et al, 2019)
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