Rapid progression of late onset axonal Charcot-Marie-Tooth disease associated with a novel MPZ mutation in the extracellular domain

Myelin protein zero (MPZ) is a major component of compact myelin in peripheral nerves where it plays an essential role in myelin formation and adhesion. MPZ gene mutations are usually responsible for demyelinating neuropathies, namely Charcot-Marie-Tooth (CMT) type 1B, Déjèrine-Sottas neuropathy and congenital hypomyelinating neuropathy. Less frequently, axonal CMT (CMT2) associated with MPZ mutations has been described. We report six patients (one sporadic case and five subjects from two apparently unrelated families) with a late onset, but rapidly progressive, axonal peripheral neuropathy. In all patients, molecular analysis demonstrated a novel heterozygous missense mutation (208C>T) in MPZ exon 2, causing the Pro70Ser substitution in the extracellular domain. The diagnosis of CMT2 associated with MPZ mutations should be considered in both sporadic and familial cases of late onset, progressive polyneuropathy. The mechanism whereby compact myelin protein mutations cause axonal neuropathy remains to be elucidated.     

Marked phenotypic variation in a family with a new myelin protein zero mutation

Myelin protein zero (MPZ) is a member of the immunoglobulin gene superfamily, which has a role in myelin compaction. MPZ gene mutations cause mostly demyelinating neuropathies of the Charcot-Marie-Tooth 1B type (CMT1B), but axonal CMT have been described as well. There is a broad spectrum of phenotypic manifestation of neuropathies caused by MPZ mutations. Some mutations of MPZ cause severe early-onset neuropathies such as Dejerine-Sottas disease, while others cause the classical CMT phenotype with normal early milestones but development of disability during the first two decades of life. We describe a family in which five members of three consecutive generations had a heterozygous mutation in nucleotide position 143 with a T-C transition in exon 2 of the MPZ gene. The resulting substitution of Leu48 with proline has not been previously described. The age of onset of symptoms varied from 8 months to 41 years. The marked variation of the age of disease onset and clinical phenotype in this one family, related to the same MPZ mutation, suggests that in addition to the type and intragenic location of the mutation, other putative modifying gene(s) are regulating MPZ gene expression, mRNA stability and posttranslational protein modification and may have an important effect on the ultimate clinical phenotype.     

Investigation of serum response to PMP22, connexin 32 and P(0) in inflammatory neuropathies.

We investigated serological immune responses against three major peripheral nerve myelin constituents in patients with immune-mediated neuropathies. Connexin 32 (Cx32), myelin protein zero (MPZ, P(0)) and peripheral myelin protein 22 (PMP22) were produced in Chinese hamster ovary (CHO)-K1 cells. From a panel of 25 Guillain-Barré syndrome (GBS) and 24 chronic inflammatory demyelinating polyneuropathy (CIDP) patients, only two patients showed reactivity towards Cx32 and P(0).     

Four novel mutations of the myelin protein zero gene presenting as a mild and late-onset polyneuropathy

Inherited neuropathies caused by mutations of the major structural protein of peripheral myelin, myelin protein zero (MPZ), contribute to 5% of all cases of Charcot-Marie-Tooth disease (CMT). They can be divided into an early-onset neuropathy with symptoms prior to the stage of walking, and a late-onset neuropathy with symptoms at the age of 40 and older. In this study, five patients with four novel MPZ mutations were identified by molecular genetic testing which presented as mild and late-onset neuropathies. We recommend testing for MPZ mutations in patients with a late-onset neuropathy, as late-onset inherited neuropathies might be more frequent than previously thought.     

Peripheral neuropathies caused by mutations in the myelin protein zero

Charcot-Marie-Tooth disease type 1B (CMT1B) is caused by mutations in the major PNS myelin protein myelin protein zero (MPZ). MPZ is a member of the immunoglobulin supergene family and functions as an adhesion molecule helping to mediate compaction of PNS myelin. Mutations in MPZ appear to either disrupt myelination during development, leading to severe early onset neuropathies, or to disrupt axo-glial interactions leading to late onset neuropathies in adulthood. Identifying molecular pathways involved in early and late onset CMT1B will be crucial to understand how MPZ mutations cause CMT1B so that rational therapies for both early and late onset neuropathies can be developed.     

Major myelin protein gene (P0) mutation causes a novel form of axonal degeneration

Mutations in the major peripheral nervous system (PNS) myelin protein, myelin protein zero (MPZ), cause Charcot-Marie-Tooth Disease type 1B (CMT1B), typically thought of as a demyelinating peripheral neuropathy. Certain MPZ mutations, however, cause adult onset neuropathy with minimal demyelination but pronounced axonal degeneration. Mechanism(s) for this phenotype are unknown. We performed an autopsy of a 73-year-old woman with a late-onset neuropathy caused by an H10P MPZ mutation whose nerve conduction studies suggested severe axonal loss but no demyelination. The autopsy demonstrated axonal loss and reorganization of the molecular architecture of the axolemma. Segmental demyelination was negligible. In addition, we identified focal nerve enlargements containing MPZ and ubiquitin either in the inner myelin intralaminar and/or periaxonal space that separates axons from myelinating Schwann cells. Taken together, these data confirmed that a mutation in MPZ can cause axonal neuropathy, in the absence of segmental demyelination, thus uncoupling the two pathological processes. More important, it also provided potential molecular mechanisms as to how the axonal degeneration occurred: either by disruption of glial-axon interaction by protein aggregates or by alterations in the molecular architecture of internodes and paranodes. This report represents the first study in which the molecular basis of axonal degeneration in the late-onset CMT1B has been explored in human tissue.     

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.     

A novel myelin protein zero (V136G) homozygous mutation causing late onset demyelinating polyneuropathy with brain white matter lesions

Although less common than peripheral myelin protein 22 (PMP22) duplication, there are mutations in myelin protein zero (MPZ) responsible for Charcot-Marie-Tooth disease (CMT) with a number of different clinical profiles. We report here a novel MPZ homozygous mutation, with a peculiar pattern characterized by a late-onset demyelinating profile. In addition, the patient presented brain white matter lesions seemingly ascribable to the mutation.     

Dejerine-Sottas neuropathy with multiple nerve roots enlargement and hypomyelination associated with a missense mutation of the transmembrane domain of MPZ/P0

In a patient affected with a slowly progressive, severe form of Dejerine-Sottas syndrome, symmetric enlargement of cranial nerves and focal hypertrophy of cervical and caudal roots were detected following MRI. Neuropathological features of the sural nerve disclosed a dramatic loss of myelinated fibres, with skewed-to-the-left, unimodal distribution of the few residual fibres, consistent with the diagnosis of congenital hypomyelination neuropathy. Genetic analysis revealed this condition to be associated with a heterozygous G to A transition at codon 167 in the exon 4 of the MPZ/P0 gene causing a Gly138Arg substitution in the transmembrane domain of the mature MPZ/P0 protein. Focal enlargement of the nerve trunks in demyelinating, hereditary motor and sensory neuropathies (HMSN) was previously reported in both asymptomatic and symptomatic cases with root compression, but peculiar to this case is the diffuse involvement of both cranial and spinal nerves. We believe that the relevance of nerve trunk hypertrophy in HMSN is probably underevaluated: therefore MRI investigation of the head and spine should be included in the diagnostic study of selected HMSN patients. Molecular analysis of peripheral myelin genes will help to rule out misdiagnosed cases. Received: 9 January 2002, Received in revised form: 14 March 2002, Accepted: 19 March 2002     

Temporal expression pattern of peripheral myelin protein 22 during in vivo and in vitro myelination

Peripheral myelin protein 22 (PMP22) was initially described as a minor component of peripheral myelin. Mutations affecting the PMP22 gene cause demyelinating neuropathies, supporting a role for the protein in PNS myelination. Furthermore, PMP22 carries the L2/HNK-1 carbohydrate epitope suggesting an adhesion/recognition function. Despite advances in characterizing the PMP22 gene, the specific role(s) of the protein in myelin remains unknown. In this study we determined the temporal expression pattern of PMP22 in comparison to galactocerebroside (GalC) and myelin associated glycoprotein (MAG), early constituents of PNS myelin, and to protein zero (P0) and myelin basic protein (MBP), late components of myelin. In sciatic nerve lysates, PMP22 was detected at postnatal day 3, after MAG, but before MBP expression. The same results were obtained in cocultures of dorsal root ganglion neurons and Schwann cells (SCs). Low levels of PMP22 were found in early, anti-MAG and anti-GalC immunoreactive, myelinating cocultures. However, PMP22 could only be detected in the SC plasma membrane after basal lamina formation. In long-term myelinating cocultures PMP22 levels continued to increase and the protein was found in anti-P0 and anti-MBP immunoreactive myelin segments. Furthermore, PMP22, MBP, and P0 protein levels were greatly enhanced by progesterone treatment of the cocultures. The highest levels of PMP22 expression were associated with late stages of myelination; however the presence of the protein in nonmyelinating SCs and in SCs commencing myelination supports multiple roles for PMP22 in peripheral nerve biology.     

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.     

A novel MPZ mutation in Charcot-Marie-Tooth disease type 1B with focally folded myelin and multiple entrapment neuropathies

Charcot-Marie-Tooth type 1B (CMT1B) is a demyelinating neuropathy caused by mutations in the myelin protein zero (MPZ) gene. Here, we describe a patient with CMT1B with focally folded myelin, a rarely reported phenotype of CMT1B, who initially presented with multiple entrapment neuropathies. She complained of palmar dysesthesia on both sides and on both soles of her feet in her 30's. She underwent bilateral carpal and tarsal tunnel release at age 44, which provided transient relief from the symptoms. A sural nerve biopsy performed at age 49 revealed focally folded myelin. Molecular genetic analysis revealed a novel Asn131Ser mutation in MPZ.     

Hereditary motor and sensory neuropathy with myelin folding and juvenile onset glaucoma

OBJECTIVE: We describe three patients from a family with motor and sensory neuropathy accompanied by open-angle glaucoma. BACKGROUND: Autosomal recessive demyelinating hereditary motor and sensory neuropathies (HMSN) include different disorders. To our knowledge, autosomal recessive HMSN has not been associated with juvenile onset glaucoma. METHODS: Sural nerve pathology of the three patients were examined, and genetic analysis of the family was performed. Result:- The most prominent pathologic finding was a highly unusual myelin abnormality consisting of irregular redundant loops and folding of the myelin sheath. The family survey supports autosomal recessive inheritance. The molecular analysis failed to demonstrate either linkage of the disease to MPZ gene, PMP22 gene, Cx32 gene, orEGR2 gene. Analysis did not establish linkage of the disease to the locus of CMT4A, 4B, and 4C genes. CONCLUSION: The present cases may represent a new type of HMSN accompanied by juvenile onset glaucoma.     

Stoichiometric alteration of PMP22 protein determines the phenotype of hereditary neuropathy with liability to pressure palsies

BACKGROUND: Hereditary neuropathy with liability to pressure palsies (HNPP) is caused by a 1.4-megabase deletion at chromosome 17p11.2, which bears the PMP22 gene and other genes. However, whether other genes besides PMP22 contribute to the phenotype is unknown. Whether any mutation within the coding region of the PMP22 gene ultimately causes HNPP by reducing the amount of peripheral myelin protein 22 (PMP22) expressed in myelin is also unknown. OBJECTIVE: To determine whether affected patients develop a phenotype identical to that found in HNPP and whether the leucine 7 frameshift (Leu7fs) mutation reduces PMP22 levels in myelin. DESIGN: We evaluated affected family members by neurological examination, electrophysiology, and skin biopsies. We identified a large family with a Leu7fs mutation of PMP22 (11 affected members across 3 generations) that predicts truncation of the protein prematurely and eliminates PMP22 expression from the mutant allele. RESULTS: We found that PMP22 levels were reduced in peripheral nerve myelin in dermal skin biopsies in patients with an Leu7fs mutation. Through clinical and electrophysiological evaluation, we also found that patients with the Leu7fs mutation were indistinguishable from patients with HNPP caused by deletion. We also found that a length-dependent axonal loss became pronounced in elderly patients with Leu7fs mutations, similar to what has been described in heterozygous knockout mice (pmp22 +/-). CONCLUSIONS: Taken together, these results confirm that the phenotypic expression is identical in patients with Leu7fs mutation and patients with HNPP caused by chromosome 17p11.2 deletion. They also demonstrate that reduction of PMP22 is sufficient to cause the full HNPP phenotype.