Axonal transport in neurological disease

The axonal transport systems have a wide variety of primary roles and secondary responses in neurological disease processes. Recent advances in understanding these roles have built on the increasingly detailed insights into the cell biology of the axon and its supporting cells. Fast transport is a m...

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Published in	Annals of neurology Vol. 23; no. 1; p. 3
Main Authors	Griffin, J W, Watson, D F
Format	Journal Article
Language	English
Published	United States 01.01.1988
Subjects	Animals Atrophy Axons - metabolism Axons - ultrastructure Biological Transport - drug effects Biological Transport, Active Biomechanical Phenomena Cytoskeleton - ultrastructure Demyelinating Diseases - metabolism Demyelinating Diseases - pathology Humans Intermediate Filaments - metabolism Intermediate Filaments - ultrastructure Nerve Degeneration Nervous System Diseases - metabolism Nervous System Diseases - pathology Neurotoxins - pharmacology Time Factors
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Abstract	The axonal transport systems have a wide variety of primary roles and secondary responses in neurological disease processes. Recent advances in understanding these roles have built on the increasingly detailed insights into the cell biology of the axon and its supporting cells. Fast transport is a microtubule-based system of bidirectional movement of membranous organelles; the mechanism of translocation of these organelles involves novel proteins, including the recently described protein of fast anterograde transport, kinesin. Slow transport conveys the major cytoskeletal elements, microtubules, and neurofilaments. Several types of structural changes in diseased nerve fibers are understood in terms of underlying transport abnormalities. Altered slow transport of neurofilaments produces changes in axonal caliber (swelling or atrophy) and is involved in some types of perikaryal neurofibrillary abnormality. Secondary changes in slow axonal transport--for example, the reordered synthesis and delivery of cytoskeletal proteins after axotomy--also can produce changes in axonal caliber. Secondary demyelination can be a prominent late consequence of a sustained alteration of neurofilament transport. Impaired fast transport is found in experimental models of distal axonal degeneration (dying back). Retrograde axonal transport provides access to the central nervous system for agents such as polio virus and tetanus toxin, as well as access for known and hypothetical trophic factors. Correlative studies of axonal transport, axonal morphometry, cytoskeletal ultrastructure, and molecular biology of cytoskeletal proteins are providing extremely detailed reconstructions of the pathogenesis of experimental models of neurological disorders. A major challenge lies in the extension of these approaches to clinical studies.
AbstractList	The axonal transport systems have a wide variety of primary roles and secondary responses in neurological disease processes. Recent advances in understanding these roles have built on the increasingly detailed insights into the cell biology of the axon and its supporting cells. Fast transport is a microtubule-based system of bidirectional movement of membranous organelles; the mechanism of translocation of these organelles involves novel proteins, including the recently described protein of fast anterograde transport, kinesin. Slow transport conveys the major cytoskeletal elements, microtubules, and neurofilaments. Several types of structural changes in diseased nerve fibers are understood in terms of underlying transport abnormalities. Altered slow transport of neurofilaments produces changes in axonal caliber (swelling or atrophy) and is involved in some types of perikaryal neurofibrillary abnormality. Secondary changes in slow axonal transport--for example, the reordered synthesis and delivery of cytoskeletal proteins after axotomy--also can produce changes in axonal caliber. Secondary demyelination can be a prominent late consequence of a sustained alteration of neurofilament transport. Impaired fast transport is found in experimental models of distal axonal degeneration (dying back). Retrograde axonal transport provides access to the central nervous system for agents such as polio virus and tetanus toxin, as well as access for known and hypothetical trophic factors. Correlative studies of axonal transport, axonal morphometry, cytoskeletal ultrastructure, and molecular biology of cytoskeletal proteins are providing extremely detailed reconstructions of the pathogenesis of experimental models of neurological disorders. A major challenge lies in the extension of these approaches to clinical studies.
Author	Watson, D F Griffin, J W
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SubjectTerms	Animals Atrophy Axons - metabolism Axons - ultrastructure Biological Transport - drug effects Biological Transport, Active Biomechanical Phenomena Cytoskeleton - ultrastructure Demyelinating Diseases - metabolism Demyelinating Diseases - pathology Humans Intermediate Filaments - metabolism Intermediate Filaments - ultrastructure Nerve Degeneration Nervous System Diseases - metabolism Nervous System Diseases - pathology Neurotoxins - pharmacology Time Factors
Title	Axonal transport in neurological disease
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