PMP22 related congenital hypomyelination neuropathy

The peripheral myelin protein 22 (PMP22) is a tetraspan membrane protein which is localised in the compact myelin of the peripheral nerves. In fibroblasts, where it was originally identified as growth arrest related factor 3 (Gas3), PMP22 has been shown to modulate cell proliferation; in the peripheral nervous system its roles are still debated. The duplication of PMP22 is the most common cause of the demyelinating form of the autosomal dominant Charcot-Marie-Tooth neuropathy (CMT1A); rarer missense mutations of PMP22 also cause CMT1A or severe dehypomyelinating neuropathies of infancy grouped under the heading of Dejerine-Sottas syndrome (DSS). Here, a sporadic patient affected with DSS is described; nerve biopsy disclosed a picture of hypomyelination/amyelination with basal laminae onion bulbs and no florid demyelination and it was consistent with congenital hypomyelination neuropathy (CHN); molecular analysis disclosed a novel point mutation of PMP22 that causes a non-conservative arginine for cysteine substitution at codon 109, in the third transmembrane domain. CHN is the rarest and severest form of DSS and it is thought to reflect dysmyelination rather than demyelination. The reported case suggests that missense point mutations may alter a putative role of PMP22 in modulating Schwann cell growth and differentiation.     

Myelin protein zero gene mutations in Taiwanese patients with Charcot-Marie-Tooth disease type 1

BACKGROUND: Charcot-Marie-Tooth disease type 1 (CMT1) is the most common inherited peripheral neuropathy and represents a genetically heterogeneous condition. In addition to the peripheral myelin protein 22 gene (PMP22) duplication (CMT1A), myelin protein zero gene (MPZ) mutations may account for a certain portion of CMT1 patients (CMT1B). OBJECTIVES: The authors analyzed the MPZ mutations in Taiwanese patients who do not have PMP22 duplication. Specifically, their clinical and molecular features were characterized. MATERIALS AND METHODS: Twenty-four of 57 unrelated Taiwanese patients with CMT1 were selected after excluding the CMT1A duplication. Subsequent analysis of the coding regions of the MPZ gene was performed with single-strand-conformation polymorphism (SSCP), which was then followed by nucleotide sequencing. RESULTS: Four missense mutations and one 4-base pair (bp) deletion, respectively, were identified in five patients, of which one mutation, c.173 T>A, has never been previously reported. Three missense mutations were located in exon 2, the other one in exon 3, and the deletion in exon 6. CONCLUSIONS: This study expands the number of CMT1 associated MPZ mutation and suggests that analysis of the coding sequence of MPZ should be performed in all CMT patients without CMT1A duplication to clarify their disease nature.     

Inherited peripheral neuropathy

Hereditary disorders of the peripheral nerves constitute a group of frequently encountered neurological diseases. Charcot-Marie-Tooth neuropathy type 1 (CMT1) is genetically heterogeneous and characterized by demyelination with moderately to severely reduced nerve conduction velocities, absent muscle stretch reflexes and onion bulb formation. Genetic loci for CMT1 map to chromosome 17 (CMT1A), chromosome 1 (CMT1B), and another unknown autosome (CMT1C). CMT1A is most often associated with a tandem 1.5-megabase (Mb) duplication in chromosome 17p11.2-12, or in rare patients may result from a point mutation in the peripheral myelin protein-22 (PMP22) gene. CMT1 B result from point mutations in the myelin protein zero (Po or MPZ) gene. The molecular defect in CMT1 C is unknown. Mutations in the early growth response 2 gene (EGR2) are also associated with demyelinating neuropathy. Other rare forms of demyelinating peripheral neuropathies map to chromosome 8q, 10q, and 11q. X-linked Charcot-Marie-Tooth neuropathy (CMTX), which has clinical features similar to CMT1, is associated with mutations in the connexin32 gene. Charcot-Marie-Tooth neuropathy type 2 (CMT2) is characterized by normal or mildly reduced nerve conduction velocity with decreased amplitude and axonal loss without hypertrophic features. One form of CMT2 maps to chromosome 1 p36 (CMT2A), another to chromosome 3p (CMT2B) and another to 7p (CMT2D). Dejerine-Sottas disease (DSD), also called hereditary motor and sensory neuropathy type III (HMSNIII), is a severe, infantile-onset demyelinating polyneuropathy that may be associated with point mutations in either the PMP22 gene or the Po gene and shares considerable clinical and pathological features with CMT1. Hereditary neuropathy with liability to pressure palsies (HNPP) is an autosomal dominant disorder that results in a recurrent, episodic demyelinating neuropathy. HNPP is associated with a 1.5-Mb deletion in chromosome 17p11.2-12 and results from reduced expression of the PMP22 gene. CMT1A and HNPP are reciprocal duplication/deletion syndromes originating from unequal crossover during germ cell meiosis.     

Tetraspan myelin protein PMP22 and demyelinating peripheral neuropathies: new facts and hypotheses

It has been demonstrated that abnormal levels of PMP22 expression due to altered gene dosage in CMT1A neuropathy alters Schwann cell growth and differentiation. On the other hand, disease-related missense mutations within transmembrane domains of PMP22 disturb intracellular protein trafficking leading to accumulation of the mutant protein in the endoplasmic reticulum/Golgi compartment. Further, the recently reported association of PMP22 and P0 in peripheral myelin sheds new light on the almost identical phenotypes of CMT1A and CMT1B giving rise to a unifying hypothesis on disease mechanism.     

Early onset neuropathy in a compound form of Charcot-Marie-Tooth disease

A 2-year-old boy presented with early-onset Charcot-Marie-Tooth disease (CMT). His parents had not been diagnosed previously with CMT, but on careful examination they showed clinical signs of CMT and reduced nerve conduction velocities. Genetic analysis identified the boy as a heterozygote for both a peripheral myelin protein 22 (PMP22) duplication and a mutation in the lipopolysaccharide-induced-tumour-necrosis-factor-alpha-factor (LITAF) gene, whereas each parent only had one mutated CMT gene. This suggests that LITAF mutations can severely affect the CMT phenotype caused by a PMP22 duplication.     

Charcot-Marie-Tooth disease and related neuropathies: mutation distribution and genotype-phenotype correlation

Charcot-Marie-Tooth disease (CMT) is a genetically heterogeneous disorder that has been associated with alterations of several proteins: peripheral myelin protein 22, myelin protein zero, connexin 32, early growth response factor 2, periaxin, myotubularin related protein 2, N-myc downstream regulated gene 1 product, neurofilament light chain, and kinesin 1B. To determine the frequency of mutations in these genes among patients with CMT or a related peripheral neuropathy, we identified 153 unrelated patients who enrolled prior to the availability of clinical testing, 79 had a 17p12 duplication (CMT1A duplication), 11 a connexin 32 mutation, 5 a myelin protein zero mutation, 5 a peripheral myelin protein 22 mutation, 1 an early growth response factor 2 mutation, 1 a periaxin mutation, 0 a myotubularin related protein 2 mutation, 1 a neurofilament light chain mutation, and 50 had no identifiable mutation; the N-myc downstream regulated gene 1 and the kinesin 1B gene were not screened for mutations. In the process of screening the above cohort of patients as well as other patients for CMT-causative mutations, we identified several previously unreported mutant alleles: two for connexin 32, three for myelin protein zero, and two for peripheral myelin protein 22. The peripheral myelin protein 22 mutation W28R was associated with CMT1 and profound deafness. One patient with a CMT2 clinical phenotype had three myelin protein zero mutations (I89N+V92M+I162M). Because one-third of the mutations we report arose de novo and thereby caused chronic sporadic neuropathy, we conclude that molecular diagnosis is a necessary adjunct for clinical diagnosis and management of inherited and sporadic neuropathy.     

Mutation analysis in Charcot-Marie Tooth disease type 1: point mutations in the MPZ gene and the GJB1 gene cause comparable phenotypic heterogeneity

Charcot-Marie-Tooth disease type 1 (CMT1) is a demyelinating peripheral neuropathy most commonly caused by a DNA duplication on chromosome 17p11.2 including the peripheral myelin protein 22 (PMP22). Point mutations in the myelin protein zero gene (MPZ) and gap junction protein, beta-1 gene (GJB1) are also found in association with CMT1 or the subclass of CMT type X (CMTX), respectively. Recently point mutations in these genes have been found in patients showing the axonal variant of CMT, CMT type 2 (CMT2). We here describe the clinical and electro-physiological findings caused by two novel and two recently described MPZ mutations and six GJB1 mutations. Different MPZ and GJB1 mutations were associated with different grades of severity in CMT1 and CMTX. The novel MPZ Glu141st op mutation was associated with the axonal CMT2. We conclude that the clinical and electrophysiological heterogeneity among CMT patients carrying point mutations in MPZ and GJB1 is similar. Thus for clinical purposes CMT1 and CMT2 patients should be screened for mutations in these two genes after duplication on chromosome 17p11.2 has been excluded as the disease causing mutation.     

Improved culture methods to expand schwann cells with altered growth behaviour from CMT1A patients

A duplication of the gene for myelin protein PMP22 is by far the most common cause of the hereditary demyelinating neuropathy CMT1A. A role for PMP22 in cell growth in addition to its function as a myelin protein has been suggested because PMP22 is homologous to a gene specifically upregulated during growth arrest. Furthermore, transfected rat Schwann cells overexpressing PMP22 show reduced growth. In addition, abnormal Schwann cell differentiation has been described in nerve biopsies from CMT1A patients. To analyse whether the duplication of the PMP22 gene in CMT1A neuropathy primarily alters Schwann cell differentiation and to exclude nonspecific secondary responses, we improved human Schwann cell culturing. This allowed us long-term passaging of human Schwann cells with unchanged phenotype, assessed by expression of different Schwann cell markers. Subsequently we established Schwann cell cultures from CMT1A nerve biopsies. We find decreased proliferation of Schwann cells from different CMT1A patients in all passages. We also demonstrate PMP22 mRNA overexpression in cultured CMT1A Schwann cells. We conclude that decreased proliferation in cultured Schwann cells that carry the CMT1A duplication indicates abnormal differentiation of CMT1A Schwann cells. The identification of an abnormal phenotype of CMT1A Schwann cells in culture could possibly lead to an in vitro disease model. GLIA 23:89–98, 1998. © 1998 Wiley-Liss, Inc.     

Evidence for macrophage-mediated myelin disruption in an animal model for Charcot-Marie-Tooth neuropathy type 1A

Charcot-Marie-Tooth neuropathy type 1A (CMT 1 A) is the most common inherited neuropathy in humans and is mostly caused by a 1.5-Mb tandem duplication of chromosome 17 comprising the gene for the peripheral myelin protein 22-kDa (PMP 22). Although there are numerous studies on the functional role of PMP 22, the mechanisms of myelin degeneration under PMP 22-overexpression conditions have not yet been fully understood. We have shown previously that in mouse mutants hetero- or homozygously deficient for two other myelin components, P0 and C x 32, respectively, immune cells contribute to the demyelinating neuropathy. To test this possibility for PMP 22 overexpression, we investigated a putative mouse model for CMT 1 A, i.e., the mouse strain C 6 1 mildly overexpressing human PMP 22 in peripheral nerves. Electron microscopic and electrophysiologic investigations revealed that this mouse strain develops pathologic features similar to those found in CMT 1 A patients. A novel finding, however, was the upregulation of CD8- and F4/80-positive lymphocytes and macrophages, respectively, in peripheral nerves. The observation that macrophages enter endoneurial tubes of the mutants and obviously phagocytose morphologically normal myelin strongly suggests that the myelin degeneration is mediated at least partially by these phagocytic cells. By gene array technology and quantitative RT-PCR of peripheral nerve homogenates from PMP 22 mutants, monocyte chemoattractant protein-1 (MCP-1; cc l2) could be identified as a putative factor to attract or activate macrophages that attack myelin sheaths in this model of CMT 1 A.     

A case of CMT 1B due to Val 102/fs null mutation of the MPZ gene presenting as hyperCKemia

Charcot-Marie-Tooth disease (CMT) is a group of clinically and genetically heterogeneous neuropathies classically divided into demyelinating (CMT1) and axonal forms (CMT2). The most common demyelinating form is CMT1A, due to a duplication in the gene encoding the peripheral myelin protein 22 (PMP22). Less frequently, mutations in the myelin protein zero gene (MPZ/P0) account for demyelinating CMT1B. Herein, we report a patient presenting with an isolated hyperCKemia in whom electrophysiological and pathological findings revealed a demyelinating and axonal neuropathy. Sequencing of the MPZ gene revealed a 306delA at codon 102 in the proband and in two relatives. This mutation has been already described in association with paucisymptomatic CMT without hyperCKemia.     

PMP22 Mutations In DÉJÈRine-Sottas Disease: A Mutational "Hot Spot" On Codon 72

Increased dosage of the gene encoding the peripheral myelin protein PMP22 is the most common molecular mechanism underlying the demyelinating form of Charcot-Marie-Tooth disease (CMT1A). It results from the duplication of a 1.5-Mb tract on chr. 17p11.2 which encompasses the PMP22 gene. Mutations in this gene can also cause CMT1A and are often associated with more severe phenotypes such as Déjèrine-Sottas disease (DSD) and congenital hypomyelinating neuropathy (CHN). We have analyzed the PMP22 gene in 20 unrelated patients affected with a severe form of demyelinating motor and sensory neuropathy (severe CMT1 or DSD). All the patients had been found negative for the common CMT1A duplication and for mutations in the myelin protein P₀ gene (MPZ). Direct sequence analysis of PMP22 uncovered the presence of missense mutations in 3 patients diagnosed as having DSD. In each case, the mutation was heterozygous and was not carried by any of the nonaffected parents, thus indicating that it was a de novo dominant mutation. Patient #1, a 3-y-old boy, carried a C-to-T transition in PMP22 exon 4 which would result in the amino acid substitution of Leu-80 with Pro in the 2nd transmembrane domain of the protein. This mutation had been previously observed in another DSD patient (Tyson, 1997). Patient #2, a 3-y-old girl, and patient #3 carried the same mutation, the 215C-to-T transition in exon 4. Interestingly, patient #3 was a 35-y-old man born of consanguineous healthy parents. The disease had started during the first years of life and the patient had become wheelchair-bound at the age of 28 y. The 215C-to-T mutation eliminates a TaqI restriction site and results in the substitution of Ser-72 (TCG) with Leu (TTG) in the 2nd transmembrane domain of PMP22. Approx. 40 different PMP22 mutations are currently listed in the European CMT Consortium Database. In the majority of cases, the mutations have been identified in single or very few patients, with the only exception of the Ser72Leu substitution. Including the two unrelated patients reported here, this mutation has been thus far described in a total of 7 patients. The mutation, which occurs within a CpG dinucleotide, exhibits phenotypic heterogeneity and has been observed in both DSD (6) and CHN (1) cases. In conclusion, PMP22 mutations are rare causes of genetic neuropathies. Given the limited number of such mutations, the recurrence of substitutions at codon 72 would indicate that this may represent a mutational “hot spot”. We therefore suggest that sequence analysis of PMP22 exon 4 should routinely precede analysis of the remaining exons and intron/exon boundaries.     

Peripheral Myelin Protein 22 gene duplication with atypical presentations: A new example of the wide spectrum of Charcot-Marie-Tooth 1A disease

Charcot-Marie-Tooth type 1A (CMT1A) and hereditary neuropathy with liability to pressure palsies (HNPP) are both autosomal-dominant disorders linked to peripheral myelin anomalies. CMT1A is associated with a Peripheral Myelin Protein 22 (PMP22) duplication, whereas HNPP is due to a PMP22 deletion on chromosome 17. In spite of this crucial difference, we report three observations of patients with the 1.4 megabase CMT1A duplication and atypical presentation (electrophysiological, clinical or pathological): a 10 year-old girl with tomaculous lesions on nerve biopsy; a 26 year-old woman with recurrent paresthesiae and block conduction on the electrophysiological study; a 46 year-old woman with transient recurrent nerve palsies mimicking HNPP. These observations highlight the wide spectrum of CMT1A and the overlap between CMT1A and HNPP (both linked to the PMP22 gene), and finally illustrate the complexity of the genotype–phenotype correlations in Charcot-Marie-Tooth diseases.     

A new MPZ mutation associated with a mild CMT1 phenotype presenting with recurrent nerve compression

P0 is a transmembrane protein of the immunoglobulin superfamily that plays a role in myelin structure and function. Myelin protein zero gene (MPZ) mutations usually cause a demyelinating variant of Charcot-Marie-Tooth disease type 1B (CMT1B), but there is a wide spectrum of phenotypic manifestation of these mutations. We describe three patients from one family and one separate patient who presented with a demyelinating neuropathy. Some had recurrent lesions at compression sites mimicking hereditary neuropathy with liability to pressure palsies (HNPP). A heterozygous nonsense mutation (Tyr145Stop) corresponding to a T-to-A transition at nucleotide position 435 in exon 3 of the MPZ gene was identified in all patients. This mutation leads to an extracellular truncated protein, which may explain the mild phenotype. Therefore, such MPZ gene mutations should be searched for in cases of demyelinating neuropathy with acute nerve compression as well as in cases of the HNPP phenotype associated with normal the PMP22 gene.     

Report of a novel mutation in the PMP22 gene causing an axonal neuropathy

Introduction: Point mutations in the peripheral myelin protein 22 (PMP22) gene rarely cause the hereditary neuropathies Charcot–Marie–Tooth disease type 1A (CMT1A) and hereditary neuropathy with liability to pressure palsies (HNPP), both of which show a demyelinating phenotype. Methods: In this study we characterized a family with an axonal neuropathy. Results: Three family members carried a heterozygous point mutation of the PMP22 gene, resulting in amino acid substitution R159C. Screening of 185 healthy controls did not reveal the R159C allele in any case. Discussion: The novel R159C mutation represents a very rare case of a dominant PMP22 mutation causing an axonal neuropathy. Muscle Nerve, 2011     

Impaired intracellular trafficking is a common disease mechanism of PMP22 point mutations in peripheral neuropathies

The most common forms of hereditary motor and sensory neuropathies (HMSN) or Charcot-Marie-Tooth disease (CMT) are associated with mutations affecting myelin genes in the peripheral nervous system. A minor subgroup of CMT type 1A (CMT1A) is caused by point mutations in the gene encoding the peripheral myelin protein 22 (PMP22). To study the mechanisms by which these mutations cause the CMT pathology, we transiently transfected COS7 and Schwann cells with wild-type and PMP22 expression constructs carrying six representative dominant or de novo point mutations and one putative recessive point mutation. All but one of the first group of mutant PMP22 proteins failed to be incorporated into the plasma membrane and were retained in intracellular compartments of transfected cells. Surprisingly, the recessive PMP22 mutation produced a protein that was also mildly impaired in trafficking. Thus, our results suggest a common disease mechanism underlying the pathology of CMT1A due to PMP22 point mutations.     

Expression pattern of the peripheral myelin protein 22kDa (PMP22) in neural and non-neural tissue types of adult wildtype and Trembler mice--a comparative study

The Trembler mouse was the first animal model for Charcot-Marie-Tooth disease type 1 (CMT1), one of the most frequent inherited peripheral neuropathies in man. In Trembler mouse a Gly150Asp amino acid exchange in the peripheral myelin protein 22kDa (PMP22) gene was identified as causative reason for this hypertrophic neuropathy. For most of the CMT patients suffering from the subtype 1A a duplication of the PMP22 gene is found (gene dosage effect); but several PMP22 point mutations, such as that determining the TremblerJ mouse, have also been described. Since PMP22 is expressed in neural, as well as in non-neural tissues, the expression pattern of PMP22 in different tissues seems to be of highest interest for a better understanding of the hypothesized dual function of this protein. We studied different wildtype (wt) and Trembler (Tr) mouse tissues for PMP22 expression by means of radioactive in situ hybridization (RISH) and immunohistochemistry. A PMP22 expression was found in some of the non-neural and in all neural tissue types studied. Our in situ study clearly demonstrated, that PMP22 mRNA expression in non-neural tissues is not due to peripheral innervation. In non-neural tissues no difference in the expression pattern or intensity between wt and Tr mice was detectable, whereas PMP22 expression in the peripheral nervous system (PNS) of the Tr mouse was extremely reduced. Immunohistochemical analysis of sciatic nerve sections revealed the same maldistribution of PMP22 in Tr mice as in sural nerve biopsies of CMT1 patients.     

Parental mosaicism of a novel PMP22 mutation with a minimal neuropathic phenotype

Genetic germinal and somatic mosaicisms of dominant Charcot‐Marie‐Tooth disease (CMT) mutations are rarely reported and/or recognized. We describe a novel heterozygous p.Trp39Cys missense mutation in the extracellular domain of the peripheral myelin protein 22 (PMP22) associated with an early‐onset demyelinating CMT type 1 E (CMT1E) in two siblings born from asymptomatic non‐consanguineous parents. The 29‐year‐old mother, harboring approximately 20% of the mutant PMP22 allele in blood, had minor signs of distal polyneuropathy (pes cavus, decreased ankle jerk reflexes and vibration sense in legs) and slight reduction of sural nerve action potentials (SNAPs). Authors suggest that mutations of CMT‐related genes which originate in post‐zygotic stages may be associated with mild phenotypes of peripheral neuropathy.