The content explores the relationship between olfactory stimulation and the neurogenesis of specific olfactory sensory neuron (OSN) subtypes in mammals. Key highlights:
Olfactory neurogenesis was previously thought to be a stochastic process, with newborn OSNs randomly expressing one of hundreds of possible odorant receptor (OR) genes. However, recent findings suggest that the birthrates of a subset of OSN subtypes are selectively reduced by olfactory deprivation.
The authors hypothesized that the neurogenic stimuli are specific odorants that selectively activate the same OSN subtypes whose birthrates are accelerated.
Using scRNA-seq and histological analyses, they found that exposure to male odors or the musk-like odorant muscone can selectively increase the quantities of newborn OSNs of subtypes responsive to these stimuli.
The stimulation-dependent changes in newborn OSN quantities were observed immediately after neurogenesis, suggesting they are mediated by altered birthrates rather than selective survival or OR switching.
The capacity for odor-induced increases in newborn OSN quantities of musk-responsive subtypes persisted into adulthood.
These findings indicate that olfactory neurogenesis serves an adaptive function, enabling the selective "amplification" of OSN subtypes in response to specific odor experiences.
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by Hossain,K., ... klo www.biorxiv.org 02-12-2024
https://www.biorxiv.org/content/10.1101/2024.02.10.579748v1Syvällisempiä Kysymyksiä