Muscle imaging analogies in a cohort of patients with different clinical phenotypes caused by LMNA gene mutations

Laminopathies are a heterogeneous group of LMNA‐gene‐mutation–related clinical disorders associated with alterations of cardiac and skeletal muscle and peripheral nerves, metabolic defects, and premature aging. Leg muscle imaging investigations were performed in a cohort of patients with LMNA gene alterations who were suffering from Emery–Dreifuss muscular dystrophy, limb‐girdle muscular dystrophy type 1B, isolated cardiac disorders or a phenotype of cardiac disorders, and lipodystrophy, including one individual with peripheral neuropathy. Leg muscle imaging revealed varying degrees of alteration in the soleus and medial head of gastrocnemius in each subject. This study demonstrates that LMNA‐gene‐mutated patients devoid of any clinically detectable skeletal muscle involvement have the same pattern of leg muscle involvement as patients with overt skeletal muscle compromise. This finding suggests the presence of a continuum of skeletal muscle involvement among phenotypes of LMNA‐gene‐mutation–related skeletalmyopathy and cardiomyopathy. Muscle Nerve, 2010     

POLG mutations presenting as Charcot‐Marie‐Tooth disease

We report on two patients, with different POLG mutations, in whom axonal neuropathy dominated the clinical picture. One patient presented with late onset sensory axonal neuropathy caused by a homozygous c.2243G>C (p.Trp748Ser) mutation that resulted from uniparental disomy of the long arm of chromosome 15. The other patient had a complex phenotype that included early onset axonal Charcot‐Marie‐Tooth disease (CMT) caused by compound heterozygous c.926G>A (p.Arg309His) and c.2209G>C (p.Gly737Arg) mutations.     

A recurrent GARS mutation causes distal hereditary motor neuropathy

We found a p.Gly327Arg mutation in GARS in two unrelated women, both of whom had a similar phenotype ‐ motor weakness that began in late childhood, distal weakness in the arms and legs, a motor greater than sensory neuropathy with slowing of motor and not sensory conduction velocities. A de novo mutation was proven in one patient and suspected in the other. The p.Gly327Arg GARS variant did not support yeast growth in a complementation assay, showing that this variant severely impairs protein function. Thus, the p.Gly327Arg GARS mutation causes a distal motor neuropathy.     

Clinical phenotype of autosomal dominant progressive external ophthalmoplegia in a family with a novel mutation in the C10orf2 gene

Autosomal dominant progressive external ophthalmoplegia (adPEO) is a mitochondrial disorder caused by mutations in nuclear genes. Here we report the clinical and genetic features of adPEO in a Chinese family. All patients had gradual onset of ptosis, with or without ophthalmoplegia, around age 30. Thirteen patients had limb weakness around age 40. Eight patients developed dysphagia around age 50. Four patients died of cardiac abnormalities around age 60. Muscle biopsy of the proband indicated mitochondrial myopathy characterized by ragged‐red fibers, cytochrome c oxidase‐negative fibers, and multiple deletions of mitochondrial DNA. A heterozygous missense mutation of c.1342A>G in the C10orf2 gene resulting in the p.448N>D mutation in the protein was found in the proband and four other affected family members. In summary, we identified an adPEO family with a novel C10orf2 gene mutation that manifested an age‐dependent phenotype. It suggests that greater attention must be paid to cardiac abnormalities in the late stages of this disease. Muscle Nerve, 2010     

A cryptic splicing mutation in the INF2 gene causing Charcot‐Marie‐Tooth disease with minimal glomerular dysfunction

Heterozygous mutations in the inverted formin‐2 (INF2) gene provoke focal segmental glomerulosclerosis (FSGS) and intermediate Charcot‐Marie‐Tooth (CMT) disease with FSGS. Here, we report four patients from a three‐generation family with a new cryptic splicing INF2 mutation causing autosomal dominant intermediate CMT with minimal glomerular dysfunction. Three males and one female with a mean age of 51 years (26‐87) presented with a slowly progressive sensorimotor polyneuropathy, pes cavus, and kyphoscoliosis. Mean age at CMT disease onset was 11.5 years (3‐17), and electrophysiological studies showed demyelinating and axonal features consistent with intermediate CMT. Plasma albumin and creatinine were normal in all four cases, and urine protein was normal in one case and mildly raised in three patients (mean: 0.32 g/L [0.18‐0.44], N < 0.14). Genetic analysis found a c.271C > G (p. Arg91Gly) variation in INF2 exon 2, and in vitro splicing assays showed the deletion of the last 120 nucleotides of INF2 exon 2 leading to a 40 amino acids in‐frame deletion (p. Arg91_p. Gln130del). This report expands the genetic spectrum of INF2‐associated disorders and demonstrates that INF2 mutations may provoke isolated CMT with no clinically relevant kidney involvement. Consequently, INF2 mutation analysis should not be restricted to individuals with coincident neuropathy and renal disease.     

Neurofilament light mutation causes hereditary motor and sensory neuropathy with pyramidal signs

To identify novel mutations causing hereditary motor and sensory neuropathy (HMSN) with pyramidal signs, a variant of Charcot‐Marie‐Tooth disease (CMT), we screened 28 CMT and related genes in four members of an affected Japanese family. Clinical features included weakness of distal lower limb muscles, foot deformity, and mild sensory loss, then late onset of progressive spasticity. Electrophysiological studies revealed widespread neuropathy. Electron microscopic analysis showed abnormal mitochondria and mitochondrial accumulation in the neurons and Schwann cells. Brain magnetic resonance imaging (MRI) revealed an abnormally thin corpus callosum. In all four, microarrays detected a novel heterozygous missense mutation c.1166A>G (p.Y389C) in the gene encoding the light‐chain neurofilament protein (NEFL), indicating that NEFL mutations can result in a HMSN with pyramidal signs phenotype.     

Neurofibromatosis 2 with peripheral neuropathies: Electrophysiological,pathological and genetic studies of a Taiwanese family

The objective of this study was to assess peripheral nerve involvement and DNA mutation of the neurofibromatosis type 2 (NF2) gene (NF2) in a Taiwanese family with classic NF2. Eleven members (six symptomatic and five asymptomatic) of a family carrying NF2 underwent clinical examination, neuroimaging, and electrophysiological analysis. Mutation and linkage analyses were conducted on DNA samples prepared from peripheral blood (all individuals), a sural nerve biopsy specimen (one symptomatic member), and a tumor specimen (another symptomatic member). Six of the 11 members were diagnosed with classic NF2. DNA sequencing of the tumor specimen demonstrated a frameshift mutation with 756delC on exon 8 of NF2. Three affected subjects showed clinical variability of the neuropathic disorders. Electrophysiological studies demonstrated variation in the disease pattern and severity of peripheral nerve involvement in five affected subjects. The morphometric assessment of the sural nerve biopsy specimen showed a marked reduction in both large myelinated and unmyelinated fibre density and increased density of non‐myelinating Schwann cell nuclei. Apart from numerous pathological nuclei of isolated Schwann cells, multiple profiles of non‐myelinating Schwann cell subunits were apparent in the endoneurium. Schwann cell proliferation in association with first‐hit mutation of the merlin gene might be responsible for the NF2‐associated neuropathy. Sural nerve biopsy showed a progressive neuropathy in the disease. Further, we suggest nonmyelinating Schwann cells are involved in NF2 neuropathy.     

A case of neuromyotonia and axonal motor neuropathy: A report of a HINT1 mutation in the United States

Introduction: HINT1 mutations cause an autosomal recessive distal hereditary motor axonal neuropathy with neuromyotonia. This is a case report of a HINT1 mutation in the United States. Methods: A 30‐year‐old man of Slovenian heritage and no significant family history presented with scoliosis as a child and later developed neuromyotonia and distal weakness. Electrodiagnostic testing revealed an axonal motor neuropathy and neuromyotonic discharges. Previous diagnostic work‐up, including testing for Cx32, MPZ, PMP‐22, NF‐L, EGR2, CLCN1, DM1, DM2, SMN exon 7/8, emerin, LMNA, MPK, SCNA4, acid maltase gene, paraneoplastic disorder, and a sural nerve biopsy, was negative. Results: Genetic testing for a HINT1 mutation was performed and revealed a homozygous mutation at p.Arg37Pro. Conclusion: This entity should be distinguished clinically and genetically from myotonic dystrophy and channelopathies with the clinical features of neuromyotonia and an axonal neuropathy. This case illustrates the importance of identifying the correct phenotype to avoid unnecessary and costly evaluations. Muscle Nerve 52 : 1110–1113, 2015     

Multisystem disorder and limb girdle muscular dystrophy caused by LMNA p.R28W mutation

Primary laminopathies caused by mutations in the LMNA gene typically display an extremely pleiotropic clinical presentation including cardiac, muscular and metabolic phenotypes. Additionally, many atypical laminopathies have been described combining features of two or more of the distinctive disorders or syndromes associated with LMNA mutations. We report on a 46-year-old female patient with a heterozygous p.R28W LMNA mutation, who presented with a novel clinical phenotype comprising severe limb-girdle muscular dystrophy, pronounced partial lipodystrophy, cardiac conduction defect, polycystic ovary disease and a metabolic syndrome with insulin-resistant diabetes mellitus and hypertriglyceridemia. On examination, her 23-year old daughter solely showed early signs of a LGMD phenotype.     

A novel ATTR L32V mutation causes familial amyloid polyneuropathy in a Bolivian family

We report a new transthyretin (ATTR) gene c.272C>G mutation and variant protein, p.Leu32Val, in a kindred of Bolivian origin with a rapid progressive peripheral neuropathy and cardiomyopathy. Three individuals from a kindred with peripheral nerve and cardiac amyloidosis were examined. Analysis of the TTR gene was performed by Sanger direct sequencing. Neuropathologic examination was obtained on the index patient with mass spectrometry study of the ATTR deposition. Direct DNA sequence analysis of exons 2, 3, and 4 of the TTR gene demonstrated a c.272 C>G mutation in exon 2 (p.L32V). Sural nerve biopsy revealed massive amyloid deposition in the perineurium, endoneurium and vasa nervorum. Mass spectrometric analyses of ATTR immunoprecipitated from nerve biopsy showed the presence of both wild‐type and variant proteins. The observed mass results for the wild‐type and variant proteins were consistent with the predicted values calculated from the genetic analysis data. The ATTR L32V is associated with a severe course. This has implications for treatment of affected individuals and counseling of family members.     

ATL3 gene mutation in a Chinese family with hereditary sensory neuropathy type 1F

Hereditary sensory neuropathy (HSN) comprises a group of progressive peripheral neuropathies predominantly affecting the sensory nerves. To date, two different ATL3 gene mutations have been reported to be responsible for HSN type 1F (HSN1F). Here, we report a family in which the members presented numbness of the lower limbs and recurrent foot ulceration. Symptoms of foot ulcers disappeared in the years after onset, which suggests that the family members showed benign and mild symptoms compared with the affected patients reported previously. Laboratory examinations and electrophysiological data suggested axonal degeneration of the peripheral sensory nerves, while motor neurons were not involved. Exome sequencing revealed the previously reported c.C1013G (p.Pro338Arg) mutation of the ATL3 gene. This is the first report of ATL3 mutation in Chinese patients with HSN. Cells expressing mutant ATL3 exhibited disruption of the endoplasmic reticulum network, suggesting a dominant‐negative effect. There was no significant difference in the expression of the endoplasmic reticulum stress marker binding immunoglobulin protein (BiP) between cells expressing wild‐type or mutant ATL3. Further studies are required to ascertain the relevance of the changes in endoplasmic reticulum morphology to axonal degeneration of sensory nerves.     

Familial partial lipodystrophy associated with the heterozygous LMNA mutation 1445G>A (Arg482Gln) in a Polish family

Familial partial lipodystrophy (FPLD) belongs to the family of laminopathies – disorders associated with mutation in the lamin A/C gene (LMNA). FPLD is characterized by loss of subcutaneous adipose tissue from the limbs, trunk and buttocks, with its concomitant accumulation on the face, neck and intra-abdominal region, and by metabolic disorders.We present the first Polish family with FPLD confirmed genetically. A 34-year-old woman admitted with myalgia and cushingoid appearance was found to have a round face with double chin, neck bump, and loss of fat on extremities. Diagnostic tests revealed impaired glucose tolerance and increased levels of liver enzymes, and ultrasonography revealed hepatic steatosis. Her 9-year-old daughter presented a similar phenotype, but no fat loss. A genetic test revealed the presence of a heterozygous LMNA gene mutation: c.1445G>A, consistent with the “hot spot” for FPLD. Treatment with metformin to improve insulin resistance and address the diabetes proved successful.     

Porphyric neuropathies in an acute intermittent porphyria family

The objective of this study was to investigate two patients with porphyric neuropathy in a family with acute intermittent porphyria. Molecular analysis of the porphobilinogen deaminase (PBGD) gene was performed. We analyzed the clinical course of peripheral neuropathy and serial changes in nerve conduction studies (NCS) of the two patients. We also examined the pathological findings of sural nerve biopsy in one patient. Molecular analysis of the PBGD gene revealed a missense mutation (Arg26His) in exon 2 for two patients and their family members. Distal polyneuropathy was noted in the patients with chronic porphyric neuropathy. In the follow‐up NCS, recovery was relatively poor in the lower limb in one patient with severe polyneuropathy, and NCS evidence of deterioration was found following frequent hormone‐related porphyric attacks in another patient. The sural nerve biopsy showed marked loss of myelinated and unmyelinated fibers in one patient with chronic porphyric neuropathy. In contrast to radial and fibular motor nerves in acute porphyric neuropathy, the sural nerve is vulnerable to involvement in chronic porphyric neuropathy following repeated porphyric attack as seen in the NCS.     

Exome Sequencing Reveals a Novel PRPS1 Mutation in a Family with CMTX5 without Optic Atrophy

Background

X-linked Charcot-Marie-Tooth disease type 5 (CMTX5) is caused by mutations in the gene encoding phosphoribosyl pyrophosphate synthetase I (PRPS1). There has been only one case report of CMTX5 patients. The aim of this study was to identify the causative gene in a family with CMTX with peripheral neuropathy and deafness.

Case Report

A Korean family with X-linked recessive CMT was enrolled. The age at the onset of hearing loss of the male proband was 5 months, and that of steppage gait was 6 years; he underwent cochlear surgery at the age of 12 years. In contrast to what was reported for the first patients with CMTX5, this patient did not exhibit optic atrophy. Furthermore, there was no cognitive impairment, respiratory dysfunction, or visual disturbance. Assessment of his family history revealed two male relatives with very similar clinical manifestations. Electrophysiological evaluations disclosed sensorineural hearing loss and peripheral neuropathy. Whole-exome sequencing identified a novel p.Ala121Gly (c.362C>G) PRPS1 mutation as the underlying genetic cause of the clinical phenotype.

Conclusions

A novel mutation of PRPS1 was identified in a CMTX5 family in which the proband had a phenotype of peripheral neuropathy with early-onset hearing loss, but no optic atrophy. The findings of this study will expand the clinical spectrum of X-linked recessive CMT and will be useful for the molecular diagnosis of clinically heterogeneous peripheral neuropathies.     

A novel mutation of LRSAM1 in a Chinese family with Charcot‐Marie‐Tooth disease

Charcot‐Marie‐Tooth (CMT) disease is the most common inherited peripheral neuropathy characterized by progressive distal muscle weakness and atrophy with decreased or absent tendon reflexes. Mutations in LRSAM1 have been identified to cause CMT disease type 2P. We report a novel LRSAM1 mutation c.2021‐2024del (p.E674VfsX11) in a Chinese autosomal dominant CMT disease type 2 family. The phenotype was characterized by late onset and mild sensory impairment. Electrophysiological findings showed normal or mildly to moderately reduced motor and sensory nerve conduction velocities in lower and upper limb nerves.     

Myelin protein zero Arg36Gly mutation with very late onset and rapidly progressive painful neuropathy

Mutations in myelin protein zero (MPZ) protein result in a wide spectrum of peripheral neuropathies, from congenital hypomyelinating to late onset sensory and motor axonal forms. In some patients, neuropathic pain can be a prominent symptom, making the diagnosis challenging mainly in those with other risk factors for neuropathy. We describe a 77‐year‐old woman with impaired glucose tolerance presenting with rapidly progressive axonal neuropathy leading to excruciating pain and severe weakness of lower limbs within 2 years from the onset. Her son abruptly complained of similar painful symptoms at the age of 47 years. Molecular analysis revealed a novel heterozygous missense mutation (c.106A>G) in MPZ exon 2, causing the substitution of arginine‐36 with glycine in the extracellular domain. Our observation suggests that MPZ‐related neuropathy should be considered in the diagnostic work up of patients with painful axonal neuropathy even presenting with rapid progression and at a very late age of onset.     

Two novel mutations of GARS in Korean families with distal hereditary motor neuropathy type V

Glycyl‐tRNA synthetase (GARS), which encodes the enzyme responsible for charging tRNA(Gly) with glycine in both the cytoplasm and mitochondria, is implicated to Charcot‐Marie‐Tooth disease 2D (CMT2D) and distal hereditary motor neuropathy type V (dHMN‐V). We performed whole exome sequencing (WES) to identify the genetic defects in the two dHMN families. WES revealed several decades of non‐synonymous variants in the CMT and aminoacyl‐tRNA synthetase genes. The subsequent capillary sequencing for family members and controls revealed two novel causative mutations, c.598G>A (D200N) and c.794C>T (S265F), in the GARS gene in each dHMN family. Both mutations were cosegregated with affected individuals in each family, and were not found in the 200 controls. The mutation sites were well conserved between the different species and in silico analysis predicted that both mutations may affect protein function. Therefore, we believe that these two novel GARS mutations are the underlying causes of the dHMN phenotype.     

Unusual features of central nervous system involvement in CMTX associated with a novel mutation of GJB1 gene

In this study, we report a novel connexin 32 (CX32) mutation associated with cognitive impairment and a differential degree of peripheral nerve involvement. We present clinical, electrophysiological, and neuroimaging data on a family with X‐linked Charcot‐Marie‐Tooth disease caused by a 41A>G mutation of the gap junction protein beta 1 (GJB1) gene. The proband and her sister presented with a severe neuropathy with subclinical cognitive impairment; the proband's brother showed severe cognitive impairment and a mild neuropathy. This family report confirms that Charcot‐Marie‐Tooth type X is a clinically heterogeneous group, with great variability of phenotypes, possible severe involvement in females and clinical signs of cognitive impairment. Thus, this novel mutation should be added to the group of CX32 mutations with a central nervous system phenotype.