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Demyelinating Forms (demyelinating + form)

Distribution by Scientific Domains
Medical Sciences80%

Selected Abstracts

Diagnosis of motor neuropathy

EUROPEAN JOURNAL OF NEUROLOGY, Issue 3 2001
J. -M.
Motor neuropathy is a clinical entity which leads to consideration of a wide spectrum of peripheral nerve disorders. Firstly, it may be distinguished from other causes of peripheral motor involvement such as muscle diseases and disorders of the neuromuscular junction. Secondly, it may be discussed in two different forms: acute and chronic. Acute chronic neuropathies are mainly observed in Guillain-Barré syndrome, in which electrophysiological studies allow us to recognize the classical demyelinating form and the axonal form. The other causes of acute motor neuropathy are mainly poliomyelitis and porphyrias. Chronic motor neuropathies are mainly observed in motor neuron diseases, mainly amyotrophic lateral sclerosis, but also Kennedy's disease and other lower motor neuron diseases which may be inherited or acquired. The other causes are multifocal motor neuropathy and the predominantly motor forms of chronic inflammatory demyelinating polyneuropathy. The characterization of these different types of chronic neuropathy is of major importance because of the therapeutic consequences which may lead to the proposal of specific treatments. [source]

Schwann cells and the pathogenesis of inherited motor and sensory neuropathies (Charcot-Marie-Tooth disease)

GLIA, Issue 4 2006
Philipp Berger
Abstract Over the last 15 years, a number of mutations in a variety of genes have been identified that lead to inherited motor and sensory neuropathies (HMSN), also called Charcot-Marie-Tooth disease (CMT). In this review we will focus on the molecular and cellular mechanisms that cause the Schwann cell pathologies observed in dysmyelinating and demyelinating forms of CMT. In most instances, the underlying gene defects alter primarily myelinating Schwann cells followed by secondary axonal degeneration. The first set of proteins affected by disease-causing mutations includes the myelin components PMP22, P0/MPZ, Cx32/GJB1, and periaxin. A second group contains the regulators of myelin gene transcription EGR2/Krox20 and SOX10. A third group is composed of intracellular Schwann cells proteins that are likely to be involved in the synthesis, transport and degradation of myelin components. These include the myotubularin-related lipid phosphatase MTMR2 and its regulatory binding partner MTMR13/SBF2, SIMPLE, and potentially also dynamin 2. Mutations affecting the mitochondrial fission factor GDAP1 may indicate an important contribution of mitochondria in myelination or myelin maintenance, whereas the functions of other identified genes, including NDRG1, KIAA1985, and the tyrosyl-tRNA synthase YARS, are not yet clear. Mutations in GDAP1, YARS, and the pleckstrin homology domain of dynamin 2 lead to an intermediate form of CMT that is characterized by moderately reduced nerve conduction velocity consistent with minor myelin deficits. Whether these phenotypes originate in Schwann cells or in neurons, or whether both cell types are directly affected, remains a challenging question. However, based on the advances in systematic gene identification in CMT and the analyses of the function and dysfunction of the affected proteins, crucially interconnected pathways in Schwann cells in health and disease have started to emerge. These networks include the control of myelin formation and stability, membrane trafficking, intracellular protein sorting and quality control, and may extend to mitochondrial dynamics and basic protein biosynthesis. © 2006 Wiley-Liss, Inc. [source]

Are giant axons a pathological marker of charcot-marie-tooth neuropathy type 2E?

JOURNAL OF THE PERIPHERAL NERVOUS SYSTEM, Issue 2 2004
T Cavallaro
Background: According to electrophysiological and pathological criteria Charcot Marie Tooth (CMT) disease includes primary demyelinating forms (CMT1) and neuropathies with primary axonal loss (CMT2). In CMT1, genetic analysis provided some associations between characteristic lesions and different proteins. In CMT2, four genes were identified recently (CMT2A, B, D, E); the molecular diagnosis is complex and phenotypical hallmarks are lacking. Objectives: To describe the nerve biopsy in three pedigrees with CMT2E caused by mutations of the neurofilament-light chain gene (NF-L): two pedigrees from Campania sharing a Pro22Ser substitution in the head domain of protein and one pedigree from Apulia with a novel Leu268Prol substitution in the central rod domain. In all three pedigrees electrophysiology was consistent with a mixed, demyelinating and axonal neuropathy. Results: The three patients analysed revealed a primary axonopathy characterized by giant axonal swelling filled with densely packed neurofilaments and some atrophic axons. Conclusions: We propose that, in the diagnostic work up of CMT2, giant axons may orientate towards CMT2E. The pathological alterations detected correlate intuitively with an altered function of the neurofilaments which constitute the axonal cytoskeleton and are critical for radial growth and for axonal transport. [source]

Axonal and demyelinating forms of the MPZ Thr124Met mutation

ACTA NEUROLOGICA SCANDINAVICA, Issue 3 2003
S. Kurihara
Objective , We report on a Japanese family with Charcot,Marie,Tooth disease (CMT) with the Thr124Met mutation in the peripheral myelin protein zero (MPZ) gene. Material and methods , Based on the clinical study, we investigated MPZ gene by direct sequence analysis and polymerase chain reaction,restriction fragment length polymorphism analysis. Results , Genotyping of four symptomatic family members showed that one family member with severe disease symptoms was homozygous, while the other three were heterozygous. The heterozygous cases were clinicopathologically determined to be the axonal type, which is characterized by late-onset and slow progression associated with Adie's pupil and deafness. The homozygous case was the demyelinating type, which showed earlier onset, rapid progression, sural nerve demyelination, and cranial nerve demyelination at autopsy. Conclusions , We suggest that axonal and demyelinating forms of CMT are not two distinct classes, but rather parts of a spectrum of genotypically related conditions, particularly with some MPZ mutations. [source]