Peripheral nerve biopsy study in 19 cases with 17p11.2 deletion

In most cases of hereditary neuropathy with liability to pressure palsy (HNPP) the diagnosis is now assessed by molecular detection of 17p11.2 deletion. However, the family history may be missing and the clinical presentation is not always informative. In such cases, a peripheral nerve biopsy showing the characteristic focal myelin sheath thickening ("tomaculae") may be helpful. We present a retrospective study of peripheral nerve biopsies performed in 19 patients suffering from either a mononeuropathy or a generalized sensory-motor polyneuropathy, and for whom the finding of tomaculae led to a search for 17p11.2 deletion, which was confirmed secondarily. Tomaculae and other coexisting neuropathological lesions such as uncompacted myelin, "onion bulb" formations, and axonal degeneration are described and discussed in the view of previously reported data. It appears that demyelinating lesions with tomaculae are strongly suggestive of HNPP but are not specific as they may be observed in other conditions. Moreover, these features may be overlooked if axonal degeneration is marked.     

Hereditary neuropathy with liability to pressure palsies: the same molecular defect can result in diverse clinical presentation

Hereditary neuropathy with liability to pressure palsies (HNPP) is a peripheral nerve disorder characterized by autosomal dominant inheritance, recurrent pressure palsies, reduced motor and sensory conduction velocities and sausage-like swellings (tomacula) of myelin sheaths in nerve biopsy. Two young adult patients are reported as index cases of two families in which HNPP was diagnosed. The first patient presented with recurrent pressure palsies, whereas the second suffered from fasciculations and myokymias in his right hand, with difficulty in writing, and upper and lower limb paraesthesias of 3 years' duration. Electrodiagnostic studies revealed slowing of conduction primarily in common sites of compression in both patients. Sural nerve biopsy revealed the characteristic tomaculous swellings in both patients. DNA analysis showed that both patients have a deletion in chromosome 17p11.2 which is found in the majority of HNPP cases. In light of the common molecular defect, the different clinical symptomatology of the two patients is discussed.     

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.     

Hereditary neuropathy with liability to pressure palsy

Hereditary neuropathy with liability to pressure palsy (HNPP) is an autosomal dominant disease with sensory and motor nerve palsies usually precipitated by trivial trauma or compression. In the majority of cases HNPP is caused by deletion of the peripheral myelin protein 22 gene (PMP22) on chromosome 17p11.2. The authors present a family case with genetically proven HNPP.     

遗传性压迫易感性神经病(4例临床与病理)

目的从临床、电生理及病理方面对遗传性压迫易感性神经病（ＨＮＰＰ）进行探讨,以提高对本病的认识。方法４例经临床及腓肠神经活检确诊,肌电图检测临床受累或未受累的肢体的感觉或运动传导速度;腓肠神经活检标本分别做ＨＥ、Ｍａｓｏｎ染色和Ｆｌｅｍｍｉｎｇ染色光镜观察。结果肌电图为广泛神经传导异常,甚至出现在临床未受累的神经支配区;腓神经活检显示部分神经纤维明显增粗,轴索正常。结论ＨＮＰＰ与遗传关系密切,但也有散发,电生理检查是重要的筛选手段,神经活检见到髓鞘增粗或典型的腊肠样结构是重要的确诊手段     

遗传性压迫易感性神经病（附一家系2例报告）

本文报告遗传性压迫易感性神经病一家系母女 2例患者的临床及电生理资料。2例均在 2 5岁起病 ,呈常染色体显性遗传。临床表现为反复肢体麻木、乏力 ,多于用力、提重物或轻度外伤后出现 ,数日至半个月左右自行好转。电生理检查有弥漫性神经传导速度减慢。周围神经病理特点为节段性脱髓鞘及腊肠样结构形成。已发现大部分本病家系均有 17p11.2上一 1.5Mb片段 (含有 PMP- 2 2基因 )的大缺失 ,少数家系为 PMP- 2 2基因碱基缺失。及时诊断 ,避免重体力劳动和外伤 ,可明显改善患者的预后     

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.     

Uncompacted inner myelin lamellae in inherited tendency to pressure palsy

Nerves in patients with inherited tendency to pressure palsy (ITPP) are susceptible to degrees of traction or compression which in nonaffected persons do not induce neuropathic symptoms or deficits, conduction block of fibers, or electromyographic changes characteristic of the disorder. Two observations suggest a widespread asymptomatic abnormality of nerves: 1) low conduction velocity of clinically unaffected nerves, and 2) focal thickenings (tomacula) on teased myelinated fibers of clinically unaffected sural nerves. Sural nerves from five patients and five healthy subjects were assessed for morphologic abnormality in ITPP that might account for the susceptibility of nerves to compression. Teased nerve fibers showed a higher frequency of segmental demyelination or remyelination, or both (p less than 0.003). The mean frequency of fibers showing focal myelin thickenings was 57 +/- 10% in ITPP and 0% in controls. In electron micrographs, regions of uncompacted myelin lamellae, usually affecting the innermost lamellae and extending for a variable distance averaging 9 +/- 4 microns were seen in 11 +/- 4% of fibers in ITPP. None were found in the control nerves. The finding of uncompacted myelin lamellae may suggest an abnormality of myelin composition or of interaction of Schwann cells and axons accounting for the increased susceptibility to pressure palsy, tomaculous formation, or demyelination. From electron microscopic evaluation of serial skip sections we infer that myelin of tomaculae is in continuity with internodal myelin and is reduplicated (full-thickness or cleaved layers are longitudinally or circumferentially folded-back on themselves).     

Correlation between PMP-22 messenger mRNA expression and phenotype in hereditary neuropathy with liability to pressure palsies

Hereditary neuropathy with liability to pressure palsies (HNPP) is associated with a deletion in chromosome 17p 11.2, which includes the gene for the peripheral myelin protein 22 (PMP-22). A “gene dosage” effect is probably the mechanism underlying HNPP, but the amount of PMP-22 mRNA in sural nerves of HNPP patients is highly variable and the role of PMP-22 underexpression in impairing myelination has yet to be clarified. We have studied 6 genetically proven HNPP patients, to evaluate the relationship between PMP-22 mRNA levels, and clinical, neurophysiological, and neuropathological findings. Underexpression of PMP-22 mRNA correlates with disease severity and with mean axon diameter and g ratio, but not with myelin thickness, number of “tomacula,” or nerve conduction parameters. Our findings further confirm that underexpression of PMP-22 is the main pathogenetic mechanism underlying the severity of clinical symptoms and signs in HNPP. Smaller axons in sural nerves of HNPP patients with lower PMP-22 levels suggests that underexpression of PMP-22 may also affect axon development.     

Dosage effects of PMP22 on nonmyelinating Schwann cells in hereditary neuropathy with liability to pressure palsies

Focal thickening of the myelin sheath, also known as tomacula, is a characteristic pathological feature of patients with hereditary neuropathy with liability to pressure palsies (HNPP). However, a deeper understanding of the pathology underlying unmyelinated fibers and nonmyelinating Schwann cells is required. Electron microscopic examination of sural nerve biopsy specimens was performed for 14 HNPP patients with peripheral myelin protein 22 (PMP22) deletion, and their results were compared to 12 normal controls and 14 Charcot–Marie–Tooth disease type 1A (CMT1A) patients with PMP22 duplication. The number of unmyelinated axons in a single axon-containing nonmyelinating Schwann cell subunit in the HNPP group significantly increased compared with that in normal controls (1.99 ± 0.66 vs. 1.57 ± 0.52, p < 0.05). Conversely, these numbers significantly decreased in the CMT1A group compared with those in normal controls (1.16 ± 0.16, p < 0.05). Some unmyelinated axons in patients with HNPP were incompletely surrounded by the cytoplasm of Schwann cells, almost as if the Schwann cells failed to form mesaxons; such failure in mesaxon formation was not observed in normal controls or in patients with CMT1A. These findings suggest that PMP22 dosage affects nonmyelinating as well as myelinating Schwann cells.     

Hereditary neuropathy with liability to pressure palsies

Summary Clinical, neurophysiological and pathological investigations were carried out in 11 affected members of 2 families with hereditary neuropathy with liability to pressure palsies (HNPP). The observations were related to findings in 261 cases of 47 families published in the literature. It was concluded that HNPP is a nosological entity characterized by the following diagnostic criteria: (1) an autosomal dominant inheritance; (2) the clinical presentation of a recurrent mononeuropathy simplex or multiplex, frequently related to an inadequate trauma to peripheral nerves; (3) a significant slowing of motor and sensory conduction velocity in clinically affected, but also in clinically unaffected nerves; (4) characteristic morphological findings in sural nerve biopsy featuring tomaculous swellings of myelin sheaths, transnodal myelination and segmental demyelination. The pathogenesis of HNPP is not clear. Hypothetical explanations of the pathogenesis of HNPP are discussed.In memory of Albert Bischoff (1921–1981), Professor of Neurology, University of Berne     

Absence of P0 leads to the dysregulation of myelin gene expression and myelin morphogenesis

P0, the major peripheral nervous system (PNS) myelin protein, is a member of the immunoglobulin supergene family of membrane proteins and can mediate homotypic adhesion. P0 is an essential structural component of PNS myelin; mice in which P0 expression has been eliminated by homologous recombination (P0-/-) develop a severe dysmyelinating neuropathy with predominantly uncompacted myelin. Although P0 is thought to play a role in myelin compaction by promoting adhesion between adjacent extracellular myelin wraps, as an adhesion molecule it could also have a regulatory function. Consistent with this hypothesis, Schwann cells in adult P0-/- mice display a novel molecular phenotype: PMP22 expression is down-regulated, MAG and PLP expression are up-regulated, and MBP expression is unchanged. As in quaking viable mutant mice (qk(v)), which have uncompacted myelin morphologically similar to that found in P0-/- mice, neither the qKI-6 or qKI-7 proteins are expressed in P0-/- peripheral nerve. In addition to these changes in gene expression in the P0 knockout, PLP/DM-20 accumulates in the endoplasmic reticulum of P0-/- Schwann cells, whereas MAG accumulates in redundant loops of uncompacted myelin, not at nodes of Ranvier or Schmidt-Lantermann incisures. Taken together, these results demonstrate that P0 is involved, either directly or indirectly, in the regulation of both myelin gene expression and myelin morphogenesis.     

Genetic factors for nerve susceptibility to injuries – lessons from PMP22 deficiency

Genetic factors may be learnt from families with gene mutations that render nerve-injury sus- ceptibility even to ordinary physical activities. A typical example is hereditary neuropathy with liability to pressure palsies （HNPP）. HNPP is caused by a heterozygous deletion of PMP22 gene. PMP22 deficiency disrupts myelin junctions （such as tight junction and adherens junctions）, leading to abnormally increased myelin permeability that explains the nerve susceptibility to injury. This finding should motivate investigators to identify additional genetic factors contribut- ing to nerve vulnerability of injury.     

Loss-of-function phenotype of hereditary neuropathy with liability to pressure palsies

Hereditary neuropathy with liability to pressure palsies (HNPP) provides a human model to investigate the role of PMP22 in myelinated peripheral nerve, since the disease is caused by a deletion of one of the two PMP22 alleles. To systematically characterize the phenotype of HNPP, we prospectively evaluated the clinical features and electrophysiological findings in 17 genetically confirmed patients, 7 men and 10 women, ranging in age from 9 to 66 years (mean, 41 +/- 13). Fifteen symptomatic patients presented with episodes of transient focal weakness or sensory loss that were usually related to particular activities causing nerve compression, including stretching or minor repetitive focal trauma. No patient sought medical attention for symptoms of a symmetric polyneuropathy. Neurological examinations were either normal or mildly abnormal. Neither focal slowing of nerve conduction studies, nor reduction in compound muscle action potential (CMAP) or sensory nerve action potential (SNAP) amplitudes consistently predicted the site of symptoms. We conclude that the majority of patients with HNPP present with transient, recurrent, focal symptoms of weakness or sensory loss in the distribution of individual nerves or plexus, and that a diffuse symmetric sensorimotor polyneuropathy is an unusual presentation of HNPP. These studies suggest that the function of PMP22, at least in part, is to stabilize myelin so that it will be protected from injuries resulting from repetitive, minor trauma.     

A Transgenic Mouse Model for Human Hereditary Neuropathy with Liability to Pressure Palsies

Mutations in the gene encoding peripheral myelin protein 22 (PMP22) account for several inherited peripheral neuropathies in humans. We now show that transgenic mice expressing antisense PMP22 RNA exhibit modestly reduced levels of PMP22 together with a phenotype that is reminiscent of hereditary neuropathy with liability to pressure palsies (HNPP), a human disease caused by a 1.5-Mb deletion of a chromosome 17 region that contains thePMP22gene. Transgenic antisense homozygotes display a striking movement disorder and a slowing of nerve conduction that worsens with age. Morphological analysis of peripheral nerves demonstrates that a subset of axons have thickened myelin sheaths and tomacula in young adults, with significant myelin degeneration detected in older animals. Together with other recent work, these data suggest that dosage of thePMP22gene alone underlies the pathophysiology observed in HNPP and related disorders.     

LONG-TERM EFFECT OF INTRAVENOUS IMMUNOGLOBLIN THERAPY (IVIg) IN MULTIFOCAL MOTOR NEUROPATHY (MMN)

Peripheral myelin protein 22 (PMP22) plays a dual role in regulating cells growth and peripheral myelin compaction. Charcot‐Marie‐Tooth 1A neuropathy (CMT1A) and Hereditary Neuropathy with liability to Pressure Palsies (HNPP) are respectively due to a duplication and a deletion of the PMP22 gene, leading to over and underexpression of the protein. It is unknown how the altered PMP22 dosage impairs peripheral myelination. By means of transmission electron microscopy (TEM) morphometry we found that myelin periodicity is significantly increased in CMT1A patients (9.79 ± 0.9 nm) and compared to normal sural nerves (9.1 ± 0.7 nm). Conversely, myelin periodicity was slightly reduced in HNPP patients (8.9 ± 0.7 nm). Interestingly, the difference between CMT1A and HNPP patients was highly significant. Moreover, we found an increased myelin periodicity in sciatic nerves of a transgenic rat model of CMT1A (8.9 ± 0.08) and in organotypic dorsal root ganglia cultures (10.1 ± 0.1 nm) established from this rat line, compared to control animals (8.6 ± 0.1) and cultures (9.6 ± 0.1 nm). Since TEM studies suffer considerably from radiation damage, we also used small‐angle X‐ray scattering (SAXS) with a synchrotron radiation microbeam (5 m diameter) for in‐situ experiments on single sural nerves of CMT 1A and HNPP patients and of normal controls. For comparison with the TEM‐data, the periodicities were divided by two. Myelin periodicities ranged from 8.4 to 8.9 nm (mean: 8.7 ± 0.3) in CMT 1A nerves, from 8.0 to 8.4 nm (mean: 8.1 ± 0.3) in normal controls, and from 6.9 to 7.2 nm (mean 7.1 ± 0.3) in HNPP. In conclusion, altered PMP22 levels induce significant changes in myelin lamellae spacing, which may be recorded by appropriate morphometric techniques, and in particular by microbeam SAXS. Differences in term of myelin periodicity between TEM morphometry and x‐ray microbeam analysis may be due to the higher resolution and accuracy of the latter technique to measure periodic structures. Having an altered myelin period could lead to demyelination and subsequent remyelination. Therefore, the pathomechanism of both CMT1A and HNPP may be also related to a dysfunction of PMP22 as a structural protein of peripheral myelin.     

Inherited focal, episodic neuropathies: hereditary neuropathy with liability to pressure palsies and hereditary neuralgic amyotrophy

Hereditary neuropathy with liability to pressure palsies (HNPP; also called tomaculous neuropathy) is an autosomal-dominant disorder that produces a painless episodic, recurrent, focal demyelinating neuropathy. HNPP generally develops during adolescence, and may cause attacks of numbness, muscular weakness, and atrophy. Peroneal palsies, carpal tunnel syndrome, and other entrapment neuropathies may be frequent manifestations of HNPP. Motor and sensory nerve conduction velocities may be reduced in clinically affected patients, as well as in asymptomatic gene carriers. The histopathological changes observed in peripheral nerves of HNPP patients include segmental demyelination and tomaculous or "sausage-like" formations. Mild overlap of clinical features with Charcot-Marie-Tooth (CMT) disease type 1 (CMT1) may lead patients with HNPP to be misdiagnosed as having CMT1. HNPP and CMT1 are both demyelinating neuropathies, however, their clinical, pathological, and electrophysiological features are quite distinct. HNPP is most frequently associated with a 1.4-Mb pair deletion on chromosome 17p12. A duplication of the identical region leads to CMT1A. Both HNPP and CMT1A result from a dosage effect of the PMP22 gene, which is contained within the deleted/duplicated region. This is reflected in reduced mRNA and protein levels in sural nerve biopsy samples from HNPP patients. Treatment for HNPP consists of preventative and symptom-easing measures. Hereditary neuralgic amyotrophy (HNA; also called familial brachial plexus neuropathy) is an autosomal-dominant disorder causing episodes of paralysis and muscle weakness initiated by severe pain. Individuals with HNA may suffer repeated episodes of intense pain, paralysis, and sensory disturbances in an affected limb. The onset of HNA is at birth or later in childhood with prognosis for recovery usually favorable; however, persons with HNA may have permanent residual neurological dysfunction following attack(s). Episodes are often triggered by infections, immunizations, the puerperium, and stress. Electrophysiological studies show normal or mildly prolonged motor nerve conduction velocities distal to the affected brachial plexus. Pathological studies have found axonal degeneration in nerves examined distal to the plexus abnormality. In some HNA pedigrees there are characteristic facial features, including hypotelorism. The prognosis for recovery of normal function of affected limbs in HNA is good, although recurrent episodes may cause residual deficits. HNA is genetically linked to chromosome 17q25, where mutations in the septin-9 (SEPT9) gene have been found.     

Spectrum of clinical and electrophysiologic features in HNPP patients with the 17p11.2 deletion

OBJECTIVE: To study the clinical and electrophysiologic features of a large series of carriers of the 17p11.2 deletion. BACKGROUND: The 17p11.2 deletion is associated in most patients with recurrent acute nerve palsies, which is the typical presentation of hereditary neuropathy with liability to pressure palsies (HNPP). Nevertheless, a few other phenotypes have been reported. METHODS: On the basis of clinical and electrophysiologic data, the authors conducted a retrospective study of 99 individuals with the 17p11.2 deletion referred to their neurogenetic department between 1993 and 1997. RESULTS: In addition to the typical presentation of HNPP, they describe five other phenotypes in 15 patients: recurrent positional short-term sensory symptoms, progressive mononeuropathy, Charcot-Marie-Tooth disease-like polyneuropathy, chronic sensory polyneuropathy, and chronic inflammatory demyelinating polyneuropathy-like, recurrent subacute polyneuropathy; and 14 asymptomatic patients. In all the deletion carriers, regardless of their phenotype and by the second decade, the authors found a characteristic, multifocal electrophysiologic neuropathy consisting of a diffuse increase in distal motor latencies contrasting with normal or moderately reduced motor nerve conduction velocities, a diffuse reduction in sensory nerve action potential, and multiple focal slowing of nerve conduction at the usual sites of entrapment. The key diagnostic criterion is a bilateral slowing of sensory and motor nerve conduction at the carpal tunnel with at least one abnormal parameter for motor conduction in one peroneal nerve. CONCLUSION: The authors confirm the clinical phenotypic heterogeneity of the 17p11.2 deletion and suggest that electrophysiologic examination is a reliable tool for screening suspected HNPP patients in its various clinical presentations.     

Uncompacted myelin lamellae in two cases of peripheral neuropathy

Summary Peripheral nerve biopsies from two patients with chronic sensorimotor neuropathy were studied. The first case was a non-Hodgkin malignant lymphoma and did not show any dysglobulinemia. The second case had a benign monoclonal gammopathy IgG, Lambda type. Direct immunofluorescence showed no deposits in the first case and slight deposits of anti IgG sera on a few myelinated fibers in the second case. There were numerous fibers showing uncompacted myelin lamellae, 7% in the first case and 4% in the second case. Some of these fibers had axons containing more tubules than filaments. The very few cases reported on neuropathies showing that uncompacted myelin lamellae were frequently associated with dysglobulinemic neuropathy. However, this ultrastructural abnormality of the myelin sheath can be observed without any dysglobulinemia.     

Peripheral myelin modification in CMT1B correlates with MPZ gene mutations.

Morphological modifications were investigated in the peripheral nerve of three unrelated patients with CMT1B. In two patients, molecular genetic analysis showed an Arg98His mutation in the extracellular domain of MPZ, associated with irregularly uncompacted lamellae. This observation confirms previous studies of a well-defined correlation between mutations and morphological phenotypes. In the third patient, a de novo Asp109Asn mutation was associated with abnormally thick myelin sheaths. This adds to the known list of MPZ gene mutations associated with this morphological phenotype.