International Journal of Molecular Sciences (May 2024)

Imbalance in <i>Unc80</i> RNA Editing Disrupts Dynamic Neuronal Activity and Olfactory Perception

  • Hui-Wen Chen,
  • Chung-Pei Ma,
  • En Chin,
  • Yi-Tung Chen,
  • Teh-Cheng Wang,
  • Yu-Ping Kuo,
  • Chia-Hao Su,
  • Po-Jung Huang,
  • Bertrand Chin-Ming Tan

DOI
https://doi.org/10.3390/ijms25115985
Journal volume & issue
Vol. 25, no. 11
p. 5985

Abstract

Read online

A-to-I RNA editing, catalyzed by the ADAR protein family, significantly contributes to the diversity and adaptability of mammalian RNA signatures, aligning with developmental and physiological needs. Yet, the functions of many editing sites are still to be defined. The Unc80 gene stands out in this context due to its brain-specific expression and the evolutionary conservation of its codon-altering editing event. The precise biological functions of Unc80 and its editing, however, are still largely undefined. In this study, we first demonstrated that Unc80 editing occurs in an ADAR2-dependent manner and is exclusive to the brain. By employing the CRISPR/Cas9 system to generate Unc80 knock-in mouse models that replicate the natural editing variations, our findings revealed that mice with the “gain-of-editing” variant (Unc80G/G) exhibit heightened basal neuronal activity in critical olfactory regions, compared to the “loss-of-editing” (Unc80S/S) counterparts. Moreover, an increase in glutamate levels was observed in the olfactory bulbs of Unc80G/G mice, indicating altered neurotransmitter dynamics. Behavioral analysis of odor detection revealed distinctive responses to novel odors—both Unc80 deficient (Unc80+/−) and Unc80S/S mice demonstrated prolonged exploration times and heightened dishabituation responses. Further elucidating the olfactory connection of Unc80 editing, transcriptomic analysis of the olfactory bulb identified significant alterations in gene expression that corroborate the behavioral and physiological findings. Collectively, our research advances the understanding of Unc80’s neurophysiological functions and the impact of its editing on the olfactory sensory system, shedding light on the intricate molecular underpinnings of olfactory perception and neuronal activity.

Keywords