Diverse cellular and molecular modes of axon degeneration

Lukas J. Neukomm; Marc R. Freeman

doi:10.1016/j.tcb.2014.04.003

Diverse cellular and molecular modes of axon degeneration

Lukas J. Neukomm, Marc R. Freeman

Research output: Contribution to journal › Review article › peer-review

102 Scopus citations

Abstract

The elimination of large portions of axons is a widespread event in the developing and diseased nervous system. Subsets of axons are selectively destroyed to help fine-tune neural circuit connectivity during development. Axonal degeneration is also an early feature of nearly all neurodegenerative diseases, occurs after most neural injuries, and is a primary driver of functional impairment in patients. In this review we discuss the diversity of cellular mechanisms by which axons degenerate. Initial molecular characterization highlights some similarities in their execution but also argues that unique genetic programs modulate each mode of degeneration. Defining these pathways rigorously will provide new targets for therapeutic intervention after neural injury or in neurodegenerative disease.

Original language	English (US)
Pages (from-to)	515-523
Number of pages	9
Journal	Trends in Cell Biology
Volume	24
Issue number	9
DOIs	https://doi.org/10.1016/j.tcb.2014.04.003
State	Published - Sep 2014
Externally published	Yes

Keywords

Axon degeneration
Axon retraction
Axosome shedding
Glia
Pruning
Wallerian degeneration

ASJC Scopus subject areas

Cell Biology

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10.1016/j.tcb.2014.04.003

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title = "Diverse cellular and molecular modes of axon degeneration",

abstract = "The elimination of large portions of axons is a widespread event in the developing and diseased nervous system. Subsets of axons are selectively destroyed to help fine-tune neural circuit connectivity during development. Axonal degeneration is also an early feature of nearly all neurodegenerative diseases, occurs after most neural injuries, and is a primary driver of functional impairment in patients. In this review we discuss the diversity of cellular mechanisms by which axons degenerate. Initial molecular characterization highlights some similarities in their execution but also argues that unique genetic programs modulate each mode of degeneration. Defining these pathways rigorously will provide new targets for therapeutic intervention after neural injury or in neurodegenerative disease.",

keywords = "Axon degeneration, Axon retraction, Axosome shedding, Glia, Pruning, Wallerian degeneration",

author = "Neukomm, {Lukas J.} and Freeman, {Marc R.}",

note = "Funding Information: We would like to thank all members of the laboratory of M.R.F. for comments and suggestions on the manuscript of this review. L.J.N. is a Charles A. King Trust Postdoctoral Fellow and is supported by the Harold Whitworth Pierce Charitable Trust. Work in the M.R.F. laboratory is supported by the National Institutes of Health and the Amyotrophic Lateral Sclerosis (ALS) Therapy Alliance. M.R.F. is an investigator of the Howard Hughes Medical Institute.",

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T1 - Diverse cellular and molecular modes of axon degeneration

AU - Neukomm, Lukas J.

AU - Freeman, Marc R.

N1 - Funding Information: We would like to thank all members of the laboratory of M.R.F. for comments and suggestions on the manuscript of this review. L.J.N. is a Charles A. King Trust Postdoctoral Fellow and is supported by the Harold Whitworth Pierce Charitable Trust. Work in the M.R.F. laboratory is supported by the National Institutes of Health and the Amyotrophic Lateral Sclerosis (ALS) Therapy Alliance. M.R.F. is an investigator of the Howard Hughes Medical Institute.

PY - 2014/9

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N2 - The elimination of large portions of axons is a widespread event in the developing and diseased nervous system. Subsets of axons are selectively destroyed to help fine-tune neural circuit connectivity during development. Axonal degeneration is also an early feature of nearly all neurodegenerative diseases, occurs after most neural injuries, and is a primary driver of functional impairment in patients. In this review we discuss the diversity of cellular mechanisms by which axons degenerate. Initial molecular characterization highlights some similarities in their execution but also argues that unique genetic programs modulate each mode of degeneration. Defining these pathways rigorously will provide new targets for therapeutic intervention after neural injury or in neurodegenerative disease.

AB - The elimination of large portions of axons is a widespread event in the developing and diseased nervous system. Subsets of axons are selectively destroyed to help fine-tune neural circuit connectivity during development. Axonal degeneration is also an early feature of nearly all neurodegenerative diseases, occurs after most neural injuries, and is a primary driver of functional impairment in patients. In this review we discuss the diversity of cellular mechanisms by which axons degenerate. Initial molecular characterization highlights some similarities in their execution but also argues that unique genetic programs modulate each mode of degeneration. Defining these pathways rigorously will provide new targets for therapeutic intervention after neural injury or in neurodegenerative disease.

KW - Axon degeneration

KW - Axon retraction

KW - Axosome shedding

KW - Glia

KW - Pruning

KW - Wallerian degeneration

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DO - 10.1016/j.tcb.2014.04.003

M3 - Review article

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SN - 0962-8924

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JO - Trends in Cell Biology

JF - Trends in Cell Biology

IS - 9

ER -

Diverse cellular and molecular modes of axon degeneration

Abstract

Keywords

ASJC Scopus subject areas

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