Forgot Password

If you have forgotten your password you can enter your email here and get a temporary password sent to your email.

Forgot Password

If you have forgotten your password you can enter your email here and get a temporary password sent to your email.

Publication

Excitable Axonal Domains Adapt to Sensory Deprivation in the Olfactory System.

Nicholas M George | Arianna Gentile Polese | Laetitia Merle | Wendy B Macklin | Diego Restrepo

The Journal of neuroscience : the official journal of the Society for Neuroscience | 2022

The axon initial segment (AIS), nodes of Ranvier, and the oligodendrocyte-derived myelin sheath have significant influence on the firing patterns of neurons and the faithful, coordinated transmission of action potentials (APs) to downstream brain regions. In the olfactory bulb (OB), olfactory discrimination tasks lead to adaptive changes in cell firing patterns, and the output signals must reliably travel large distances to other brain regions along highly myelinated tracts. Whether myelinated axons adapt to facilitate olfactory sensory processing is unknown. Here, we investigate the morphology and physiology of mitral cell (MC) axons in the olfactory system of adult male and female mice and show that unilateral sensory deprivation causes system-wide adaptations in axonal morphology and myelin thickness. MC spiking patterns and APs also adapted to sensory deprivation. Strikingly, myelination and MC physiology were altered on both the deprived and nondeprived sides, indicating system level adaptations to reduced sensory input. Our work demonstrates a previously unstudied mechanism of plasticity in the olfactory system.SIGNIFICANCE STATEMENT Successful transmission of information from the olfactory bulb (OB) to piriform cortex through the lateral olfactory tract (LOT) relies on synchronized arrival of action potentials (APs). The coincident arrival of APs is dependent on reliable generation of APs in the axon initial segment (AIS) and fast conduction mediated by axon myelination. Here, we studied changes in mitral cell (MC) firing and AIS structure as well as changes in myelination of the LOT on unilateral olfactory deprivation in the adult mouse. Strikingly, myelination and MC physiology were altered on both the deprived and nondeprived sides, indicating system level adaptations to reduced sensory input. Our work demonstrates a previously unstudied mechanism of plasticity in the olfactory system.

Pubmed ID: 35022219 RIS Download

Research resources used in this publication

None found

Additional research tools detected in this publication

None found

Antibodies used in this publication

Associated grants

Agency: NIDCD NIH HHS, United States
Id: F31 DC018459
Agency: NIDCD NIH HHS, United States
Id: R01 DC000566
Agency: NICHD NIH HHS, United States
Id: T32 HD041697
Agency: NCATS NIH HHS, United States
Id: UL1 TR001082

Publication data is provided by the National Library of Medicine ® and PubMed ®. Data is retrieved from PubMed ® on a weekly schedule. For terms and conditions see the National Library of Medicine Terms and Conditions.