The olfactory network of larval Xenopus laevis regenerates accurately after olfactory nerve transection
The olfactory network of larval Xenopus laevis regenerates accurately after olfactory nerve transection
Across vertebrate species, the olfactory epithelium (OE) exhibits the uncommon feature of lifelong neuronal turnover. Epithelial stem cells give rise to new neurons that can adequately replace dying olfactory receptor neurons (ORNs) during developmental and adult phases and after lesions. To relay olfactory information from the environment to the brain, the axons of the renewed ORNs must reconnect with the olfactory bulb (OB). In Xenopus laevis larvae, we have previously shown that this process occurs between 3 and 7 weeks after olfactory nerve (ON) transection. In the present study, we show that after 7 weeks of recovery from ON transection, two functionally and spatially distinct glomerular clusters are reformed in the OB, akin to those found in non-transected larvae. We also show that the same odourant response tuning profiles observed in the OB of non-transected larvae are again present after 7 weeks of recovery. Next, we show that characteristic odour-guided behaviour disappears after ON transection but recovers after 7–9 weeks of recovery. Together, our findings demonstrate that the olfactory system of larval X. laevis regenerates with high accuracy after ON transection, leading to the recovery of odour-guided behaviour.
3445-3820
Maiello, Guido
c122b089-1bbc-4d3e-b178-b0a1b31a5295
Hawkins, Sara
aba2c94f-35e0-4533-af36-e49e2dfba9f9
17 May 2024
Maiello, Guido
c122b089-1bbc-4d3e-b178-b0a1b31a5295
Hawkins, Sara
aba2c94f-35e0-4533-af36-e49e2dfba9f9
Maiello, Guido and Hawkins, Sara
(2024)
The olfactory network of larval Xenopus laevis regenerates accurately after olfactory nerve transection.
European Journal of Neuroscience, 60 (1), .
(doi:10.1111/ejn.16375).
Abstract
Across vertebrate species, the olfactory epithelium (OE) exhibits the uncommon feature of lifelong neuronal turnover. Epithelial stem cells give rise to new neurons that can adequately replace dying olfactory receptor neurons (ORNs) during developmental and adult phases and after lesions. To relay olfactory information from the environment to the brain, the axons of the renewed ORNs must reconnect with the olfactory bulb (OB). In Xenopus laevis larvae, we have previously shown that this process occurs between 3 and 7 weeks after olfactory nerve (ON) transection. In the present study, we show that after 7 weeks of recovery from ON transection, two functionally and spatially distinct glomerular clusters are reformed in the OB, akin to those found in non-transected larvae. We also show that the same odourant response tuning profiles observed in the OB of non-transected larvae are again present after 7 weeks of recovery. Next, we show that characteristic odour-guided behaviour disappears after ON transection but recovers after 7–9 weeks of recovery. Together, our findings demonstrate that the olfactory system of larval X. laevis regenerates with high accuracy after ON transection, leading to the recovery of odour-guided behaviour.
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Eur J of Neuroscience - 2024 - Hawkins - The olfactory network of larval Xenopus laevis regenerates accurately after
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Accepted/In Press date: 14 April 2024
Published date: 17 May 2024
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Local EPrints ID: 502851
URI: http://eprints.soton.ac.uk/id/eprint/502851
ISSN: 0953-816X
PURE UUID: cc6e3303-494c-477f-8b57-1beb835304a1
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Date deposited: 09 Jul 2025 16:39
Last modified: 22 Aug 2025 02:38
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Author:
Guido Maiello
Author:
Sara Hawkins
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