AI Article Synopsis
- Sound perception is adaptable and changes quickly based on the environment, attention, and expectations, with some influence from the orbitofrontal cortex (OFC).
- Recent research in Mongolian gerbils shows no direct connection between the OFC and the auditory midbrain, but notable connections from the OFC to the auditory cortex, especially in secondary auditory areas.
- The study also found that OFC neurons extend their influence throughout the brain, targeting regions related to learning, decision-making, and memory, suggesting the OFC plays a key role in how we process and understand sound.
Article Abstract
Sound perception is highly malleable, rapidly adjusting to the acoustic environment and behavioral demands. This flexibility is the result of ongoing changes in auditory cortical activity driven by fluctuations in attention, arousal, or prior expectations. Recent work suggests that the orbitofrontal cortex (OFC) may mediate some of these rapid changes, but the anatomical connections between the OFC and the auditory system are not well characterized. Here, we used virally mediated fluorescent tracers to map the projection from OFC to the auditory midbrain, thalamus, and cortex in a classic animal model for auditory research, the Mongolian gerbil (Meriones unguiculatus). We observed no connectivity between the OFC and the auditory midbrain, and an extremely sparse connection between the dorsolateral OFC and higher order auditory thalamic regions. In contrast, we observed a robust connection between the ventral and medial subdivisions of the OFC and the auditory cortex, with a clear bias for secondary auditory cortical regions. OFC axon terminals were found in all auditory cortical lamina but were significantly more concentrated in the infragranular layers. Tissue-clearing and lightsheet microscopy further revealed that auditory cortical-projecting OFC neurons send extensive axon collaterals throughout the brain, targeting both sensory and non-sensory regions involved in learning, decision-making, and memory. These findings provide a more detailed map of orbitofrontal-auditory connections and shed light on the possible role of the OFC in supporting auditory cognition.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10529810 | PMC |
| http://dx.doi.org/10.1002/cne.25525 | DOI Listing |
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