Introduction. Charcot–Marie–Tooth disease type 4D is a hereditary demyelinating neuropathy, that occurs with the high frequency in patients of Roma origin. It is characterized by early onset at the age of 2–10 years and hearing impairment, manifested by the 3rd decade of life.Aim of the study. To describe the clinical and genetic characteristics of Charcot–Marie–Tooth disease type 4D in Russian patients of Roma origin.Materials and methods. For 14 probands from unrelated families of Roma origin with a clinical diagnosis of Charcot–Marie–Tooth disease, genetic tests for the pathogenic variants c. 442C>T in the NDRG1 gene and c. 3325C>T in the SH3TC2 gene was carried out. For 8 patients with Charcot–Marie–Tooth disease type 4D, detailed clinical and electrophysiological examination was performed.Results. In 11 families of Roma origin, the c. 442C>T pathogenic variant in the NDRG1 gene in a homozygous state was detected, which accounted for 79 % all observed Roma patients with Charcot–Marie–Tooth disease. There are 12 of the 14 tested families live in the European part of Russia, 7 of them are from nearby regions. The average age of onset was 3.3 years. The first symptom in 7 of 8 patients was gait disturbances. At the time of examination (age range 6–19 years), all patients showed marked hypotrophy and weakness of the feet, lower leg, hands muscles, feet deformities, reduction or loss of tendon reflexes.Discussion. Due to the detection of only one pathogenic variant in most Russian patients of Roma origin with Charcot–Marie–Tooth disease, the knowledge of the ethnicity of a proband with early myelinopathy can significantly simplify the confirmation of the diagnosis on the molecular level.
Introduction. Hereditary motor and sensory neuropathies, a highly genetic heterogeneous group of disorders, have a phenotype caused by peripheral nerve damage.Purpose of the study – to assess the extent of genetic heterogeneity of hereditary motor and sensory neuropathies in Russian patients and to evaluate the diagnostic effectiveness of using full-exome research methods to find the genetic cause of hereditary motor and sensory neuropathies.Materials and methods. The material for the study was DNA samples from 51 patients and their family members referred for whole exome sequencing to the DNA-diagnostics laboratory of Research Centre for Medical Genetics in 2017–2019. Methods: whole exome sequencing, Sanger sequencing, restriction fragment length polymorphism.Results. Whole exome sequencing in combination with segregation analysis of the pathogenic variants in families allowed to determine the cause of the disease in 41 % of cases. In another 16 % of cases, candidate genetic variants as a possible cause of the disease were revealed, but additional studies are needed to confirm it. The most frequently mutated gene was MFN2 caused neuropathy in 6 unrelated families. MPZ gene mutations were detected in two families, AARS gene mutations were revealed in another two families, and mutations in GJB1, HINT1, INF2, LRSAM1, LITAF, MME, NEFL, WWOX were detected once. Among the causal variants, mutations in B4GALNT1 caused spastic paraplegia, in COL6A1 led to Bethlem’s congenital muscular dystrophy, and in SYT2 caused congenital myasthenic syndrome indicating difficulties in differential diagnosis of inherited neuromuscular disorders. A PMP22 duplication was detected in 2 families prior to whole exome sequencing.Conclusion. Whole exome sequencing is very important for finding the molecular cause of hereditary motor and sensory neuropathies. In most cases, additional methods should be used to clarify the pathogenicity of variants detected by whole exome sequencing. However, it is necessary to remember that the most common cause of the disease is a large duplication of the region 17p11.2.
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