Charcot-Marie-Tooth disease type 4C (CMT4C) is a childhood-onset demyelinating form of hereditary motor and sensory neuropathy associated with an early-onset scoliosis and a distinct Schwann cell pathology. CMT4C is inherited as an autosomal recessive trait and has been mapped to a 13-cM linkage interval on chromosome 5q23-q33. By homozygosity mapping and allele-sharing analysis, we refined the CMT4C locus to a suggestive critical region of 1.7 Mb. We subsequently identified mutations in an uncharacterized transcript, KIAA1985, in 12 families with autosomal recessive neuropathy. We observed eight distinct protein-truncating mutations and three nonconservative missense mutations affecting amino acids conserved through evolution. In all families, we identified a mutation on each disease allele, either in the homozygous or in the compound heterozygous state. The CMT4C gene is strongly expressed in neural tissues, including peripheral nerve tissue. The translated protein defines a new protein family of unknown function with putative orthologues in vertebrates. Comparative sequence alignments indicate that members of this protein family contain multiple SH3 and TPR domains that are likely involved in the formation of protein complexes.
Mutations in GDAP1 are a frequent cause of AR CMT. They result in an early-onset, severe clinical phenotype. The range of nerve conduction velocities (NCV) is variable. Some patients have normal or near normal NCV, suggesting an axonal neuropathy, whereas others have severely slowed NCV compatible with demyelination. The peripheral nerve biopsy findings are equally variable and show features of demyelination and axonal degeneration.
The end‐plate species of acetylcholinesterase (AChE) is an asymmetric enzyme consisting of a collagenic tail subunit composed of three collagenic strands (ColQ), each attached to a tetramer of the T isoform of the catalytic subunit (AChET) via a proline‐rich attachment domain. The principal function of the tail subunit is to anchor asymmetric AChE in the synaptic basal lamina. Human end‐plate AChE deficiency was recently shown to be caused by mutations in COLQ. We here report nine novel COLQ mutations in 7 patients with end‐plate AChE deficiency. We examine the effects of the mutations on the assembly of asymmetric AChE by coexpressing each genetically engineered COLQ mutant with ACHET in COS cells. We classify the newly recognized and previously reported COLQ mutations into four classes according to their position in ColQ and their effect on AChE expression. We find that missense mutations in the proline‐rich attachment domain abrogate attachment of catalytic subunits, that truncation mutations in the ColQ collagen domain prevent the assembly of asymmetric AChE, that hydrophobic missense residues in the C‐terminal domain prevent triple helical assembly of the ColQ collagen domain, and that other mutations in the C‐terminal region produce asymmetric species of AChE that are likely insertion incompetent. Ann Neurol 2000;47:162–170.
Nerve biopsy is often the final step in the diagnostic work-up of neuropathies of unknown origin. The aim of this guideline was to prepare an evidence-based guideline on the methods for performing and evaluating nerve biopsy. The panel performed a search of MEDLINE, hand search of bibliographies of the references retrieved, review of the evidence, and reached agreement by consensus. There were not enough formal studies of diagnostic test accuracy to allow evidence-based recommendations of levels A-C for most questions. The panel summarized the class IV evidence and reached agreement by consensus on the following recommendations: (1) Nerve biopsy should not be performed before adequate clinical, electrophysiological, and laboratory investigation and only be performed with appropriate informed consent. (2) An interactive working relationship with the relevant disciplines involved and the provision of sufficient clinical information is encouraged. (3) Biopsies should be processed and read by professionals with adequate training and experience. (4) Optimal analysis of nerve biopsy is best performed by laboratories that have the facilities and expertise to prepare and evaluate frozen and fixed sections (cryostat, paraffin, and epoxy sections). (5) Immunohistochemistry, teased fiber analysis, electron microscopy, and morphometry may help clarify the diagnosis in some conditions and should be considered as additional studies.
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