Neu3 sialidase-mediated ganglioside conversion is necessary for axon regeneration and is blocked in cns axons
Neu3 sialidase-mediated ganglioside conversion is necessary for axon regeneration and is blocked in cns axons
PNS axons have a high intrinsic regenerative ability, whereas most CNS axons show little regenerative response. We show that activation of Neu3 sialidase, also known as Neuraminidase-3, causing conversion of GD1a and GT1b to GM1 ganglioside, is an essential step in regeneration occurring in PNS (sensory) but not CNS (retinal) axons in adult rat. In PNS axons, axotomy activates Neu3 sialidase, increasing the ratio of GM1/GD1a and GM1/GT1b gangliosides immediately after injury in vitro and in vivo. No change in the GM1/GD1a ratio after axotomy was observed in retinal axons (in vitro and in vivo), despite the presence of Neu3 sialidase. Externally applied sialidase converted GD1a ganglioside to GM1 and rescued axon regeneration in CNS axons and in PNS axons after Neu3 sialidase blockade. Neu3 sialidase activation in DRGs is initiated by an influx of extracellular calcium, activating P38MAPK and then Neu3 sialidase. Ganglioside conversion by Neu3 sialidase further activates the ERK pathway. In CNS axons, P38MAPK and Neu3 sialidase were not activated by axotomy.
2477-2492
Kappagantula, Sunil
60d1f581-851f-45ac-a98c-8c34d82c476e
Andrews, Melissa R.
ae987a2f-878e-4ae3-a7a3-a7170712096c
Cheah, Menghon
dcd039ed-e63d-4447-8494-08405fca83ec
Abad-Rodriguez, José
346f99e4-25d2-4338-8375-d32bc3940b39
Dotti, Carlos G
d5416c24-1df7-4307-adbd-c32513dcef4c
Fawcett, James W
4549730e-9f62-45b8-820b-8a9c98d1058b
12 February 2014
Kappagantula, Sunil
60d1f581-851f-45ac-a98c-8c34d82c476e
Andrews, Melissa R.
ae987a2f-878e-4ae3-a7a3-a7170712096c
Cheah, Menghon
dcd039ed-e63d-4447-8494-08405fca83ec
Abad-Rodriguez, José
346f99e4-25d2-4338-8375-d32bc3940b39
Dotti, Carlos G
d5416c24-1df7-4307-adbd-c32513dcef4c
Fawcett, James W
4549730e-9f62-45b8-820b-8a9c98d1058b
Kappagantula, Sunil, Andrews, Melissa R., Cheah, Menghon, Abad-Rodriguez, José, Dotti, Carlos G and Fawcett, James W
(2014)
Neu3 sialidase-mediated ganglioside conversion is necessary for axon regeneration and is blocked in cns axons.
Journal of Neuroscience, 34 (7), .
(doi:10.1523/JNEUROSCI.4432-13.2014).
Abstract
PNS axons have a high intrinsic regenerative ability, whereas most CNS axons show little regenerative response. We show that activation of Neu3 sialidase, also known as Neuraminidase-3, causing conversion of GD1a and GT1b to GM1 ganglioside, is an essential step in regeneration occurring in PNS (sensory) but not CNS (retinal) axons in adult rat. In PNS axons, axotomy activates Neu3 sialidase, increasing the ratio of GM1/GD1a and GM1/GT1b gangliosides immediately after injury in vitro and in vivo. No change in the GM1/GD1a ratio after axotomy was observed in retinal axons (in vitro and in vivo), despite the presence of Neu3 sialidase. Externally applied sialidase converted GD1a ganglioside to GM1 and rescued axon regeneration in CNS axons and in PNS axons after Neu3 sialidase blockade. Neu3 sialidase activation in DRGs is initiated by an influx of extracellular calcium, activating P38MAPK and then Neu3 sialidase. Ganglioside conversion by Neu3 sialidase further activates the ERK pathway. In CNS axons, P38MAPK and Neu3 sialidase were not activated by axotomy.
Text
Kappagantula et al-JNEurosci-Nov2013.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 23 December 2013
e-pub ahead of print date: 12 February 2014
Published date: 12 February 2014
Organisations:
Biomedicine
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Local EPrints ID: 404979
URI: http://eprints.soton.ac.uk/id/eprint/404979
ISSN: 0270-6474
PURE UUID: 1377cfc0-defd-41c6-ae8b-346293ece45a
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Date deposited: 25 Jan 2017 15:10
Last modified: 16 Mar 2024 04:28
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Contributors
Author:
Sunil Kappagantula
Author:
Menghon Cheah
Author:
José Abad-Rodriguez
Author:
Carlos G Dotti
Author:
James W Fawcett
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