Cellular pathways of hereditary spastic paraplegia
C Blackstone - Annual review of neuroscience, 2012 - annualreviews.org
Annual review of neuroscience, 2012•annualreviews.org
Human voluntary movement is controlled by the pyramidal motor system, a long CNS
pathway comprising corticospinal and lower motor neurons. Hereditary spastic paraplegias
(HSPs) are a large, genetically diverse group of inherited neurologic disorders characterized
by a length-dependent distal axonopathy of the corticospinal tracts, resulting in lower limb
spasticity and weakness. A range of studies are converging on alterations in the shaping of
organelles, particularly the endoplasmic reticulum, as well as intracellular membrane …
pathway comprising corticospinal and lower motor neurons. Hereditary spastic paraplegias
(HSPs) are a large, genetically diverse group of inherited neurologic disorders characterized
by a length-dependent distal axonopathy of the corticospinal tracts, resulting in lower limb
spasticity and weakness. A range of studies are converging on alterations in the shaping of
organelles, particularly the endoplasmic reticulum, as well as intracellular membrane …
Human voluntary movement is controlled by the pyramidal motor system, a long CNS pathway comprising corticospinal and lower motor neurons. Hereditary spastic paraplegias (HSPs) are a large, genetically diverse group of inherited neurologic disorders characterized by a length-dependent distal axonopathy of the corticospinal tracts, resulting in lower limb spasticity and weakness. A range of studies are converging on alterations in the shaping of organelles, particularly the endoplasmic reticulum, as well as intracellular membrane trafficking and distribution as primary defects underlying the HSPs, with clear relevance for other long axonopathies affecting peripheral nerves and lower motor neurons.
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