Abstract
Compared to many other rodent species, naked mole rats (Heterocephalus glaber) have elevated auditory thresholds, poor frequency selectivity, and limited ability to localize sound. Because the cochlea is responsible for encoding and relaying auditory signals to the brain, we used immunofluorescence and quantitative image analysis to examine cochlear innervation in mature and developing naked mole rats compared to mice (Mus musculus), gerbils (Meriones unguiculatus), and Damaraland mole rats (Fukomys damarensis), another subterranean rodent. In comparison to mice and gerbils, we observed alterations in afferent and efferent innervation as well as their patterns of developmental refinement in naked and Damaraland mole rats. These alterations were, however, not always shared similarly between naked and Damaraland mole rats. Most conspicuously, in both naked and Damaraland mole rats, inner hair cell (IHC) afferent ribbon density was reduced, whereas outer hair cell afferent ribbon density was increased. Naked and Damaraland mole rats also showed reduced lateral and medial efferent terminal density. Developmentally, naked mole rats showed reduced and prolonged postnatal reorganization of afferent and efferent innervation. Damaraland mole rats showed no evidence of postnatal reorganization. Differences in cochlear innervation specifically between the two subterranean rodents and more broadly among rodents provides insight into the cochlear mechanisms that enhance frequency sensitivity and sound localization, maturation of the auditory system, and the evolutionary adaptations occurring in response to subterranean environments.
Highlights
Naked mole rats (Heterocephalus glaber) are long-lived rodents that live in large eusocial colonies in narrow, underground burrows
We investigated efferent innervation of the inner hair cell (IHC) and OHCs by immunolabeling organs of Corti isolated from mature mice (6 weeks old), gerbils (6 weeks old), naked mole rats (1 year old), and Damaraland mole rats with a rabbit polyclonal antibody against synapsin
When comparing the number of medial efferent terminals per OHC across species, we observed an average of 1.2 (255/205), 2.3 (480/204), 3.7 (718/192), and 5.4 (923/171) terminals/OHC in gerbils, mice, naked, and Damaraland mole rats, respectively. These findings indicate that medial efferent terminals are smaller but more numerous in naked and Damaraland mole rats compared to mice and gerbils
Summary
Naked mole rats (Heterocephalus glaber) are long-lived rodents that live in large eusocial colonies in narrow, underground burrows Their subterranean environment restricts oxygen levels, light exposure, and acoustic stimulation and has led to various physiological adaptations (Hetling et al, 2005; Park et al, 2017). To begin to test this hypothesis, we used immunofluorescence to examine patterns of afferent and efferent innervation in excised organs of Corti from mature and developing naked mole rats compared to mice, gerbils, and Damaraland mole rats (Fukomys damarensis) This selection of species allowed comparison of naked mole rats to rodents with sensitive high frequency hearing (mouse), sensitive low frequency hearing (gerbils) and another more closely related, subterranean, eusocial mole rate (Damaraland mole rats). Differences in cochlear innervation between the two subterranean rodents and more broadly among rodents provides insight into the evolutionary adaptations to subterranean environments as well as the cochlear mechanisms that contribute to hearing sensitivity and sound localization
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