AI Article Synopsis
- The study found that type I spiral ganglion neurons (SGNs) in Ly5.1 congenic mice were largely unmyelinated, which is unusual compared to most mammals.
- The research identified several abnormalities in these mice, including unusual aggregations of unmyelinated SGNs, altered cellular expressions, and delayed auditory responses.
- The findings suggest that defects in Schwann cells may lead to incomplete myelination during cochlear development, making the Ly5.1 strain a potential model for studying human-like auditory processing.
Article Abstract
With the exception of humans, the somata of type I spiral ganglion neurons (SGNs) of most mammalian species are heavily myelinated. In an earlier study, we used Ly5.1 congenic mice as transplant recipients to investigate the role of hematopoietic stem cells in the adult mouse inner ear. An unanticipated finding was that a large percentage of the SGNs in this strain were unmyelinated. Further characterization of the auditory phenotype of young adult Ly5.1 mice in the present study revealed several unusual characteristics, including 1) large aggregates of unmyelinated SGNs in the apical and middle turns, 2) symmetrical junction-like contacts between the unmyelinated neurons, 3) abnormal expression patterns for CNPase and connexin 29 in the SGN clusters, 4) reduced SGN density in the basal cochlea without a corresponding loss of sensory hair cells, 5) significantly delayed auditory brainstem response (ABR) wave I latencies at low and middle frequencies compared with control mice with similar ABR threshold, and 6) elevated ABR thresholds and deceased wave I amplitudes at high frequencies. Taken together, these data suggest a defect in Schwann cells that leads to incomplete myelinization of SGNs during cochlear development. The Ly5.1 mouse strain appears to be the only rodent model so far identified with a high degree of the "human-like" feature of unmyelinated SGNs that aggregate into neural clusters. Thus, this strain may provide a suitable animal platform for modeling human auditory information processing such as synchronous neural activity and other auditory response properties.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2897057 | PMC |
| http://dx.doi.org/10.1002/cne.22398 | DOI Listing |
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