Purkinje cell axonal swellings enhance action potential fidelity and cerebellar function

Axonal plasticity allows neurons to control their output, which critically determines the flow of information in the brain. Axon diameter can be regulated by activity, yet how morphological changes in an axon impact its function remains poorly understood. Axonal swellings have been found on Purkinje...

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Veröffentlicht in:	Nature communications 2021-07, Vol.12 (1), p.4129-4129, Article 4129
Hauptverfasser:	Lang-Ouellette, Daneck, Gruver, Kim M., Smith-Dijak, Amy, Blot, François G. C., Stewart, Chloe A., de Vanssay de Blavous, Pauline, Li, Connie H., Van Eitrem, Carter, Rosen, Charlotte, Faust, Phyllis L., Schonewille, Martijn, Watt, Alanna J.
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Sprache:	eng
Schlagworte:	13 14 14/1 14/28 14/63 14/69 631/378/1697/1277 631/378/1697/2603 631/378/87 64/60 Accuracy Action potential Axonal plasticity Axons Cerebellar plasticity Cerebellum Computational neuroscience Failure Humanities and Social Sciences Information flow multidisciplinary Neurodegenerative diseases Plastic properties Plasticity Propagation Purkinje cells Quantum dots Science Science (multidisciplinary) Young adults
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creator	Lang-Ouellette, Daneck Gruver, Kim M. Smith-Dijak, Amy Blot, François G. C. Stewart, Chloe A. de Vanssay de Blavous, Pauline Li, Connie H. Van Eitrem, Carter Rosen, Charlotte Faust, Phyllis L. Schonewille, Martijn Watt, Alanna J.
description	Axonal plasticity allows neurons to control their output, which critically determines the flow of information in the brain. Axon diameter can be regulated by activity, yet how morphological changes in an axon impact its function remains poorly understood. Axonal swellings have been found on Purkinje cell axons in the cerebellum both in healthy development and in neurodegenerative diseases, and computational models predicts that axonal swellings impair axonal function. Here we report that in young Purkinje cells, axons with swellings propagated action potentials with higher fidelity than those without, and that axonal swellings form when axonal failures are high. Furthermore, we observed that healthy young adult mice with more axonal swellings learn better on cerebellar-related tasks than mice with fewer swellings. Our findings suggest that axonal swellings underlie a form of axonal plasticity that optimizes the fidelity of action potential propagation in axons, resulting in enhanced learning. Axonal swellings have been found on Purkinje cell axons in the cerebellum both during development and disease. The authors show that axons with swellings propagate action potentials with higher fidelity than those without and that mice with more axonal swellings learn cerebellar-related tasks better.
doi_str_mv	10.1038/s41467-021-24390-4
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title	Purkinje cell axonal swellings enhance action potential fidelity and cerebellar function
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