The neurofilament light chain (NF-L) is a major constituent of intermediate filaments and plays a pivotal function in the assembly and maintenance of axonal cytoskeleton. Mutations in the NF-L gene (NEFL) cause autosomal dominant neuropathies that are classified either as axonal Charcot-Marie-Tooth (CMT) type 2E (CMT2E) or demyelinating CMT type 1F (CMT1F). The pathophysiological bases of the disorder(s) are elusive. We performed a mutational analysis of NEFL in a series of 177 index cases with CMT and without mutations in the genes for peripheral myelin protein zero (MPZ), peripheral myelin protein 22 (PMP22) and connexin 32 (GJB1); the motor nerve conduction velocity (MNCV) at the median nerve was below 38 m/s in 76 cases and above 38 m/s in 101. We identified five new pedigrees with four mutations in the head and rod domains of NF-L, including a novel Leu268Pro substitution and a novel del322Cys_326Asn deletion. Several examined affected members exhibited marked variability in the severity of disease and age at onset. Nerve conduction alterations were consistent with an axonal neuropathy often associated with demyelinating features, such as prolonged distal latencies (DL). Pathological examination of sural nerve biopsies in the probands detected in four cases a chronic axonal neuropathy dominated by focal accumulations of NF with axonal swellings (giant axons) and significant secondary demyelination; in the fifth case no NFs accumulations were evident but many myelinated fibres consisted exclusively of microtubules with few or absent NF. The pathological phenotype correlated with the pattern of nerve conduction alterations and indicated that NEFL mutations cause a profound alteration of the cytoskeleton possibly related to defective targeting of NF.
Autosomal-dominant transthyretin (TTR)-related amyloidosis usually manifests in the second to fourth decade with a length-dependent axonal neuropathy with prominent involvement of the small fibers and multi-organ systemic failure. We retrospectively analyzed seventeen probands, including thirteen apparently isolated cases, carrying eight mutations of TTR gene (age of onset = 60.4 ± 13.5 years). Thirteen patients were initially un/misdiagnosed; interval from onset to definite diagnosis was 3.3 ± 2.3 years. Inaugural syndromes were a length-dependent motor-sensory neuropathy in seven cases, a sensory neuropathy in four, an isolated carpal tunnel syndrome in three, a pure dysautonomia in two, and a painful neuropathy in one. Atypical presentations included demyelinating nerve conduction changes with increased cerebrospinal fluid proteins resembling chronic inflammatory demyelinating polyradiculoneuropathy and a predominantly motor involvement resembling a motor neuron disorder. Misleading findings also included amyloid-negative abdominal fat aspirate/biopsy, biclonal gammopathy, and hepatitis C virus (HCV) seropositivity. Sural nerve biopsy detected amyloid deposits in thirteen of fifteen patients, including one case with a previous negative biopsy. TTR-immunohistochemistry was necessary to complete the diagnosis of primary amyloidosis light chain in a patient with biclonal gammopathy. A recurrent p.Phe64Leu mutation manifested in the seventh decade with painful motor-sensory polyneuropathy, dysautonomia, bulbar palsies, and fasciculations. TTR should be tested in a wide clinical spectrum of cryptogenetic, progressive, and motor-sensory neuropathies even manifesting with a very late onset.
The report confirms genetic heterogeneity of FGD4, demonstrates that CMT4H has variable functional impairment, and suggests that frabin plays a crucial role during myelin formation.
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