Hereditary peripheral neuropathies are the most common monogenetically inherited diseases of the nervous system. The prevalence of the Hereditary Motor and Sensory Neuropathy Type 1A (HMSN 1A or Charcot-Marie-Tooth Neuropathy 1A, CMT1A) alone is estimated to be as high as 1/5000. In 1991, a duplication on chromosome 17p11.2 was identified as the causative genetic defect of CMT1A. Since then causative mutations in 17 genes have been identified. This review summarises the clinical and molecular genetic features of primary inherited neuropathies. It is aimed primarily at clinicians and geneticists. Therefore less emphasis is placed on the pathology and the (often unknown) underlying biological disease mechanisms.
Giant axonal neuropathy (GAN) is an autosomal recessive neurologic disorder clinically characterized by a severe polyneuropathy, CNS abnormalities, and characteristic tightly curled hair. Recently, mutations in the gigaxonin gene have been identified as the underlying genetic defect. The authors report two novel mutations confirming that GAN is caused by mutations in the gigaxonin gene and raise the question whether some mutations may cause a mild subclinical neuropathy.
Hereditary Neuralgic Amyotrophy (HNA) is an autosomal dominantly inherited recurrent focal neuropathy affecting mainly the brachial plexus. Linkage to markers on chromosome 17q25 was found in 1996 and subsequent reports confirmed linkage of HNA to this locus. Recently a family with a chronic undulating rather than remitting-relapsing clinical course of HNA was described by a Dutch group. This family did not have linkage to the 17q25 locus. Here we describe for the first time clinically and genetically two families with classic remitting-relapsing HNA that are not linked to the previously described HNA locus on chromosome 17q25. These results demonstrate that clinically homogeneous classical HNA is genetically heterogeneous.
Hereditary Neuralgic Amyotrophy (HNA) is an autosomal dominantly inherited recurrent focal neuropathy affecting mainly the brachial plexus. Linkage to markers on chromosome 17q25 was found in 1996 and subsequent reports confirmed linkage of HNA to this locus. Recently a family with a chronic undulating rather than remitting‐relapsing clinical course of HNA was described by a Dutch group. This family did not have linkage to the 17q25 locus. Here we describe for the first time clinically and genetically two families with classic remitting‐relapsing HNA that are not linked to the previously described HNA locus on chromosome 17q25. These results demonstrate that clinically homogeneous classical HNA is genetically heterogeneous.
Hereditary neuralgic amyotrophy (HNA) is an autosomal-dominant inherited recurrent focal neuropathy affecting mainly the brachial plexus. In this study we report the genomic structure and mutation analysis of three candidate genes: sphingosine kinase 1 (SPHK1); tissue inhibitor of metalloproteinase 2 (TIMP2); and cytoglobin (CYGB). We did not find any disease-associated mutations, indicating that HNA is not caused by point mutations in these genes. However, we identified several sequencing errors in the cDNA of SPHK1 as well as seven novel single-nucleotide polymorphisms.
Hereditary neuralgic amyotrophy (HNA) is a rare autosomal dominant disorder. It is characterised by recurrent episodes of focal neuropathy involving the brachial plexus. Genetic linkage analysis has mapped HNA to chromosome 17q25 within a 3.5-cM interval flanked by the short tandem repeat markers D17S785 and D17S802. Here, we report the mutation analysis of four candidate genes. Mutation analysis was performed on the complete coding regions of these genes. Several exonic and intronic single nucleotide polymorphisms were detected. However, no disease-causing mutations were found, indicating that these genes are most probably not involved in the pathogenesis of HNA. In addition, we have characterised and localised a putative pseudogene of the SEC14-like 1 gene.
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