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Electron Microscopic Mapping of Mitochondrial Morphology in the Cochlear Nerve Fibers.

Yan LuYi JiangFangfang WangHao WuYunfeng Hua
Published in: Journal of the Association for Research in Otolaryngology : JARO (2024)
To enable nervous system function, neurons are powered in a use-dependent manner by mitochondria undergoing morphological-functional adaptation. In a well-studied model system-the mammalian cochlea, auditory nerve fibers (ANFs) display distinct electrophysiological properties, which is essential for collectively sampling acoustic information of a large dynamic range. How exactly the associated mitochondrial networks are deployed in functionally differentiated ANFs remains scarcely interrogated. Here, we leverage volume electron microscopy and machine-learning-assisted image analysis to phenotype mitochondrial morphology and distribution along ANFs of full-length in the mouse cochlea inner spiral bundle. This reveals greater variance in mitochondrial size with increased ANF habenula to terminal path length. Particularly, we analyzed the ANF terminal-residing mitochondria, which are critical for local calcium uptake during sustained afferent activities. Our results suggest that terminal-specific enrichment of mitochondria, in addition to terminal size and overall mitochondrial abundance of the ANF, correlates with heterogenous mitochondrial contents of the terminal.
Keyphrases
  • oxidative stress
  • machine learning
  • cell death
  • electron microscopy
  • high resolution
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  • spinal cord injury
  • deep learning
  • wastewater treatment