Optic atrophy, neural deafness, and distal neurogenic amyotrophy; report of a family with two affected siblings

Hereditary motor and sensory neuropathy type VIA with optic nerve pallor in two sisters with pathologic myopia: a case series and review

PURPOSE

Hereditary Motor Sensory Neuropathy Type VIA with Optic Atrophy (HMSN6A) is a rare variant subtype of mitofusin 2 (MFN2) associated Charcot-Marie-Tooth disease, with ophthalmic manifestations largely limited to optic atrophy. We report a case series of two sisters with HMSN6A corresponding to known variants in the MFN2 gene. The proband's mother, maternal aunt, and maternal grandfather were also reportedly affected with the condition, although not examined at our institution. The clinical presentations of the proband and her sister are reviewed in detail. In addition, a comprehensive review of ophthalmic findings from prior reported cases of HMSN6A is provided.

OBSERVATIONS

HMSN6A is a neurologic disorder characterized by a motor sensory axonal neuropathy and optic atrophy. A range of additional ophthalmic manifestations have been reported in the literature. We highlight the proband and her sister who demonstrate this phenotype but also manifested other ocular abnormalities from an early age. In addition to optic nerve pallor, both sisters had additional ophthalmic features of bilateral pathologic myopia, limited vision, nystagmus, and strabismus.

CONCLUSIONS AND IMPORTANCE

This case series and review describe the ophthalmologic findings of HMSN6A and provides incentive to further investigate the correlation between molecular findings and the phenotype.

Dominant optic atrophy: correlation between clinical and molecular genetic studies

PURPOSE

To assess the clinical picture and molecular genetics of 14 Finnish families with dominant optic atrophy (DOA).

METHODS

The clinical status of family members was based on the assessment of visual acuity, colour vision, visual fields and optic nerve appearance; 31 individuals were affected, two suspect and 21 unaffected. A total of 30 coding exons and exon- intron boundaries of the OPA1 gene were sequenced in order to detect mutations.

RESULTS

Half the patients were diagnosed at the age of < or = 20 years. Ten out of 20 affected individuals followed up for > or = 6 years had a progressive disease and 10 had a stable disease. According to WHO criteria, 36% of the affected patients were visually handicapped. Eight OPA1 pathogenic mutations, all but one novel, and 18 neutral polymorphisms were detected.

CONCLUSION

The most sensitive indicators of DOA were optic disc pallor and dyschromatopsia. With molecular genetic analysis, asymptomatic mutation carriers and DOA cases with a mild clinical outcome were ascertained. No mutational hotspot or Finnish major mutation in the OPA1 gene could be demonstrated as most families carried a unique mutation. No obvious genotype- phenotype correlation could be detected. Detailed clinical assessment and exclusion of non-DOA families prior to mutation screening are necessary for obtaining a high mutation detection rate.

Hereditary motor and sensory neuropathy type VI with optic atrophy

PURPOSE

To present the detailed clinical findings of a large family with hereditary motor and sensory neuropathy type VI (HMSN VI), a syndrome featuring optic atrophy.

DESIGN

Observational case series.

METHODS

A detailed history was obtained and physical examination was made of the extended family of the proband for evidence of neurologic dysfunction. The OPA1 gene was screened for mutations by direct DNA sequencing.

RESULTS

Twelve of 97 family members examined are affected with signs of HMSN VI. Three other members have either optic atrophy or peripheral neuropathy, thus allowing an appreciation of the full clinical spectrum of disease. No mutations were found in the OPA1 gene.

CONCLUSIONS

This family demonstrates the variable expressivity of this disorder as well as incomplete penetrance. This is the largest known family with HMSN VI. No association was found with changes in the OPA1 gene.

OPA1 (Kjer type) dominant optic atrophy: a novel mitochondrial disease

Dominant optic atrophy (DOA) is the most common form of inherited optic neuropathy. Although heterogeneous, a major locus has been mapped to chromosome 3q28 and the responsible gene, OPA1, was recently identified. OPA1 is a mitochondrial dynamin-related GTPase implicated in the formation and maintenance of the mitochondrial network. To date, 62 mutations have been identified in a total of 201 DOA patients. Most of them (90%) are distributed from exons 8 to 28 with a majority in the GTPase domain (54%). None were found in the alternatively spliced exons 4, 4b, and 5b. Half of them are truncative mutations (50%) with a frequent recurrent allele, c.2708delTTAG. Most missense mutations (81%) cluster within the putative GTPase domain. Various pathogenic mechanisms may play a role in OPA1 DOA. Truncative mutations in the N-terminal region and perhaps missense mutations in the GTPase domain lead to a loss of function of the encoded protein and haplotype insufficiency. However, there is a cluster of truncation mutations in the in C-terminus, a putative dimerization domain, that could act through a dominant negative effect. The findings that OPA1-type DOA, as Leber optic neuropathy, is caused by the impairment of a mitochondrial protein address the question of the vulnerability of the retinal ganglion cell in response to mitochondrial defects.

Charcot-Marie-Tooth disease (CMT): distinctive phenotypic and genotypic features in CMT type 2

Charcot-Marie-Tooth disease (CMT), or hereditary motor and sensory neuropathy (HMSN), includes two main subtypes of CMT1/HMSN I (demyelinating), and CMT2/HMSN II (axonal). Further heterogeneity has been demonstrated by genetic molecular studies, with at least four responsible genes for CMT1. As for CMT2, a mutation in the neurofilament-light (NF-L) gene has been identified in a single family, and other CMT2 loci have been mapped. We propose a clinical classification of the CMT2 phenotypes, and review the features of the identified CMT2 genotypes. The following main subtypes of CMT2 are considered in the phenotype classification: classical CMT2, the variants of CMT2 showing atypical features that may represent either variance in the classical CMT2 phenotype or separate entities; CMT2 plus, i.e. complex forms with involvement of additional neural structures. The recognized CMT2 genotypes include: CMT2A (mapped to chromosome 1p35-36); CMT2B (3q13-22); CMT2C (with vocal cord paresis); CMT2D (7p14); CMT2E, related to a mutation in the NF-L gene on chromosome 8p21; proximal CMT2, or HMSN P (3q13.1); CMT2 with MPZ mutations; autosomal recessive CMT2 (1q21.2-q21.3); agenesis of the corpus callosum with sensorimotor neuronopathy (15q13-q15); CMT2 X-linked with deafness and mental retardation (Xq24-q26). The identified genotypes may correspond to previously described clinical subtypes of CMT2. In particular, classical CMT2 presents in association with NF-L gene mutation, in the only CMT2 family with known gene mutation, and in CMT2A patients. However, the features of classical CMT2 have been paradoxically reported also in families with MPZ mutation, and conversely several CMT2 families are not linked to the known CMT2 loci. Further cloning of the CMT2 genes will ultimately shed light on the pathogenic mechanism(s) implicated in the process of axonal degeneration, shared by the different CMT2 genotypes.

A clinicopathological observation of Nyssen-van Bogaert syndrome with second motor neuron degeneration: two distinct clinical entities

OBJECTIVES

To report a novel clinicopathological observation of Nyssen-van Bogaert syndrome. To compare this observation with those previously reported. To discuss the nosological entity of this syndrome. To define the exact etiopathogenic mechanism of the neurogenic amyotrophy occurring at the late stage of the disease.

MATERIALS AND METHODS

The patient was a 16-year-old girl who developed loss of vision and deafness at the age of 8. Ataxia with slight cerebellar signs were present by the age of 14. Over the next 2 years, she developed distal weakness and wasting of the legs with depressed ankle reflexes. She died at the age of 16. Deparaffinized sections of the brain, the brain stem, the cerebellum and the spinal cord were stained with haematoxylin & eosin (H&E), Nissl, Woelcke, Bodian, periodic acid-schiff (PAS), Sudan Black and Kluver Barera. Antibodies anti-GFAP, anti-MPB and anti-neurofilaments were used for immunohistochemical stainings following the avidin-biotin-peroxydase complex (ABC) methods.

RESULTS

The clinical pictures in our patient are similar to those previously reported in juvenile patients with optico-cochleo-dentate syndrome. Pathological study of the nervous system confirmed the diagnosis of Nyssen-van Bogaert syndrome and also showed a severe anterior horn, posterior horn and Clarke's column nerve cell degeneration with anterior root atrophy.

CONCLUSION

From these clinical and pathological data, the authors suggest to include Nyssen-van Bogaert syndrome among the group of multiple system atrophy, propose to divide this syndrome into 2 forms (an early infantile form and a juvenile form) and consider that the neurogenic amyotrophy occurring at the late stage of the disease in juvenile and adult patients is mainly caused by the second motor neuron involvement.

Clinical features, molecular genetics, and pathophysiology of dominant optic atrophy

Inherited optic neuropathies are a significant cause of childhood and adult blindness and dominant optic atrophy (DOA) is the most common form of autosomally inherited (non-glaucomatous) optic neuropathy. Patients with DOA present with an insidious onset of bilateral visual loss and they characteristically have temporal optic nerve pallor, centrocaecal visual field scotoma, and a colour vision deficit, which is frequently blue-yellow. Evidence from histological and electrophysiological studies suggests that the pathology is confined to the retinal ganglion cell. A gene for dominant optic atrophy (OPA1) has been mapped to chromosome 3q28-qter, and studies are under way to refine the genetic interval in which the gene lies, to map the region physically, and hence to clone the gene. A second locus for dominant optic atrophy has recently been shown to map to chromosome 18q12.2-12.3 near the Kidd blood group locus. The cloning of genes for dominant optic atrophy will provide important insights into the pathophysiology of the retinal ganglion cell in health and disease. These insights may prove to be of great value in the understanding of other primary ganglion cell diseases, such as the mitochondrially inherited Leber's hereditary optic neuropathy and other diseases associated with ganglion cell loss, such as glaucoma.

Cerebellar ataxia, areflexia, pes cavus, optic atrophy, and sensorineural hearing loss (CAPOS): a new syndrome

There are a large number of well recognised syndromes comprising cerebellar ataxia in association with other neurological features. We report three family members who presented with a relapsing, early onset cerebellar ataxia, associated with progressive optic atrophy and sensorineural deafness. All three patients have areflexia (in the absence of a peripheral neuropathy), a pes cavus deformity, and show varying degrees of severity. Extensive neurological investigations have been normal, and the aetiology and pathophysiology of this disorder remain unclear. This may represent a separate syndrome of early onset cerebellar ataxia with associated features ("cerebellar ataxia plus"), which is likely to either have an autosomal dominant or maternal mitochondrial pattern of inheritance. The recognition of this association under the acronym of CAPOS (cerebellar ataxia, areflexia, pes cavus, optic atrophy, and sensorineural deafness) may help in the delineation of a new syndrome.

Genetic heterogeneity of hereditary motor and sensory neuropathy type VI

Charcot-Marie-Tooth disease comprises a heterogeneous group of neurologic disorders that shape peripheral motor and sensory neuropathy. A classification of these disorders was proposed in 1975, defining seven types of hereditary motor and sensory neuropathy. Clinical features of hereditary motor and sensory neuropathy type VI are muscle weakness and atrophy in leg and hand muscles, leading to progressive disability and loss of vision and progressing to blindness due to optic atrophy. Hereditary motor and sensory neuropathy type VI was first reported in 1879 by Vizioli, who described a kinship in which a father and two sons presented with peroneal muscular atrophy in association with optic atrophy. Since then, at least nine similar cases have been reported: three sporadic cases, two pairs of siblings who were offspring of consanguineous parents, and one pair of siblings who were offspring of unrelated parents suggesting autosomal recessive inheritance. Vertical transmission has been reported only by Vizioli. We present a father and two offspring (one boy and one girl) with the above-mentioned characteristic features of hereditary motor and sensory neuropathy type VI. Vizioli's kinship and either an autosomal recessive or autosomal dominant pattern of inheritance.

Progressive sensorineural hearing loss (SNHL) and peripheral neuropathy: a case report

Sensorineural hearing loss (SNHL) is infrequently associated with peripheral neuropathy. When co-existent with peripheral neuropathy, it tends to present in the early adult years, is slowly progressive and is accompanied by optic atrophy or bowel abnormalities. The following case presents an unusual patient with severe and rapidly progressive SNHL and peripheral neuropathy.

Hereditary motor and sensory neuropathy with deafness, mental retardation and absence of large myelinated fibers

Two brothers with a presumably hereditary motor and sensory polyneuropathy (HMSN), sensory-neural hearing loss and mental retardation had clinical features and neuropathological changes in the sural nerve which may set the disorder apart from previously described types of HMSN. Consecutive sural nerve biopsies from one case showed absence of large myelinated fibers and a normal complement of small fibers. We infer from our findings that a developmental abnormality with faulty growth and subsequent axonal atrophy may be responsible.

Familial congenital anterior cervical hypertrichosis associated with peripheral sensory and motor neuropathy--a new syndrome?

We present three patients with familial congenital hypertrichosis localized to the anterior cervical region, associated with peripheral sensory and motor neuropathy. This association may represent a new neurocutaneous syndrome. The association of anterior midline cutaneous lesions with an underlying malformation is discussed.

Hereditary motor and sensory neuropathy (HMSN) and optic atrophy (HMSN type VI, Vizioli)

Clinical and electrophysiological findings are described in three patients with hereditary motor and sensory neuropathy in association with optic atrophy (HMSN VI). The optic atrophy was of the Leber type in a 15-year-old boy. In a 70-year-old patient, as in three members of his family, optic atrophy was associated with tapetoretinal degeneration. In addition to HMSN and optic atrophy a 20-year-old man suffered from sensorineural deafness. Electrophysiological studies indicated a neuronal form of neuropathy, as in HMSN II. Brainstem auditory evoked potentials also revealed subclinical involvement of the central auditory pathways in the patients without hearing defects.

Hereditary motor and sensory neuropathy type 1 (HMSN1) associated with cranial neuropathy: an autopsy case report

A family with hereditary motor and sensory neuropathy type 1 (HMSN1) is reported. Three patients suffered only pupillary abnormality, two patients showed Adie's syndrome and peripheral neuropathy, and one had cranial neuropathy. Adie's syndrome and severe peripheral neuropathy. Autopsy of the latter revealed reduction of myelinated nerve fibers in the trigeminal, facial and hypoglossal nerves. There was extensive degeneration of the posterior column of the spinal cord. At the anterior horns, loss of motor neurons was observed, particularly at the lumbar level. The anterior and posterior roots showed loss of myelinated fibers. HMSN1 is only rarely associated with cranial neuropathy, and this is probably the first autopsy-proved case.

Optic atrophy, hearing loss, and peripheral neuropathy

Here we report on two families with a previously apparently undescribed, autosomal dominant disorder resulting in optic atrophy and subsequent development of hearing loss and peripheral neuropathy. This disorder differs from previous syndromes resulting in this triad of effects both in the severity and early onset of the optic atrophy and in its mode of transmission. Review of published cases of optic atrophy + hearing loss + peripheral neuropathy suggests that there are at least three such specific disorders; classification of these published cases by first-appearing symptom also results in a clean division by most-likely inheritance.

Autosomal recessive hereditary motor and sensory neuropathy with mental retardation, optic atrophy and pyramidal signs

A syndrome is described, consisting of severe neurogenic distal wasting, generalised muscle weakness, absent ankle reflexes, pyramidal signs, mental retardation, optic atrophy and retinal colloid bodies. A sural nerve biopsy from one case showed loss of nerve fibres suggesting the diagnosis of hereditary motor and sensory neuropathy. Progression of the disorder was very slow, all patients still being able to walk more than 20 years after the onset. The persons affected with this syndrome were two brothers and their female cousin from a large Gujerati pedigree where consanguinity was high. Autosomal recessive inheritance is therefore suggested.

A distinct congenital motor and sensory neuropathy (neuronal type) with dysmorphic features in a father and two sons. A variant of Charcot-Marie-Tooth disease

A 37-year-old male had clinical and electrophysiological features of hereditary motor and sensory neuropathy (neuronal type) with onset in infancy, as well as histological picture of neurogenic myopathy. Two sons, aged 2 and 3 4/12 years, showed congenital contraction deformities of feet, delayed motor development, and electrophysiological features similar to those of the father. All three also presented laryngeal abnormalities, peculiar facies, short neck, narrow shoulders and protruding chest. The authors conclude that this aggregate of anomalies constitutes a "new" syndrome probably due to an autosomal dominant gene.

Auditory function in hereditary motor and sensory neuropathy (Charcot-Marie-Tooth disease)

Fourteen patients with hereditary motor and sensory neuropathy (HMSN), 12 of Type I and 2 of Type II, were assessed for auditory dysfunction. Five patients complained of hearing loss and all had pure-tone audiograms outside the normal range, while one patient who did not complain of hearing impairment also had an abnormal pure-tone audiogram. Assessment of loudness function, speech audiometry and brainstem auditory evoked potentials (BAEP) suggested that the hearing loss was the result of VIII nerve dysfunction, a conclusion supported by the abnormality of the electrocochleogram (ECochG) in one patient.

Dominant optic atrophy, deafness, ptosis, ophthalmoplegia, dystaxia, and myopathy. A new syndrome

Twenty-three members of a 96-member family exhibited an autosomal dominant disorder which has not previously been described. This disorder involves progressive optic atrophy, abnormal electroretinography without retinal pigment changes, and progressive sensorineural hearing loss usually evident in the first or second decade of life. In midlife, ptosis, ophthalmoplegia, dystaxia, and a nonspecific myopathy occur.

Autosomal recessive inheritance of Charcot-Marie-Tooth disease associated with sensorineural deafness

Three siblings with a combination of sensorineural deafness and the Charcot-Marie-Tooth syndrome have been investigated in a consanguineous Indian kindred. This syndrome, which to the best of our knowledge has not previously been reported, is probably inherited as an autosomal recessive trait.

Visual evoked potential abnormalities in Charcot-Marie-Tooth disease and comparison with Friedreich's ataxia

Pattern-reversal visual evoked potentials (VEPs), recorded in 15 visually asymptomatic patients fulfilling the clinical and electrophysiological criteria of Charcot-Marie-Tooth disease (CMTD), were abnormal in 5 and possibly abnormal in another 3. Five patients showed a prolongation of P100 latency, one a reduction of amplitude and one a possibly abnormal "scotomatous" waveform. In 9 cases abnormalities were detected on neuro-ophthalmological examination. These were poorly correlated with VEP abnormalities, except for patients with 2 or more clinical eye signs. Relative central scotomata were found in the patient with an abnormal waveform. VEP abnormalities, where present, were usually fairly comparable in the 2 eyes. In comparison with a group of Friedrich's ataxia cases there was a lower overall incidence of VEP abnormalities in CMTD, but little to suggest a qualitative difference in the nature of the visual pathway pathology. All 4 patients with unequivocally abnormal VEPs had experienced atypical symptoms suggestive of CNS involvement. In none of these was it possible to sustain an alternative diagnosis. It is concluded that a minor degree of visual pathway involvement may be present in many CMTD cases, in spite of the fact that optic atrophy is only rarely reported, and that the VEP latency may reflect the degree to which other parts of the CNS are involved.

Clinical and pathological features of an autosomal recessive neuropathy

Two siblings are described, ages 49 and 45 years, having a distinct hereditary motor and sensory neuropathy (HMSN) with severe peroneal nerve involvement. The neuropathic symptoms began in childhood. Both patients have sensorineural deafness. The proband was found to have a cardiac conduction abnormality in the absence of known ischemic heart disease. Electrodiagnostic studies were consistent with a demyelinating peripheral neuropathy. The presence of parental consanguinity and absence of affected individuals in succeeding or preceding generations suggested that the sensorimotor neuropathy in this family is inherited in an autosomal recessive manner. The sural nerve of the proband had significant loss of myelinated fibers and demyelination but few regenerating myelinated fibers and no onion-bulbs. The pathological findings, while nonspecific, are not characteristic of the hypertrophic, neuronal or intermediate types of HMSN.

Anterior horn cell disease seen in South India

Thirty-two patients with clinical evidence of anterior horn cell dysfunction are descirbed. This group of patients could be divided into those with bulbar dysfunction, and those without. Eighth cranial nerve involvement was seen in 10%. The commonest perpheral distribution seen was symmetrical involvement of all four extremities. During the period of follow-up (1 to 5 years) none of the patients without bulbar dysfunction initially developed such symptoms. In all these patients electromyographic evidence of anterior horn cell disease was confirmed. The motor nerve conduction velocities in all of these patients were normal. None of them showed signs of pyramidal tract involvement. Muscle biopsy showed evidence of group fibre atrophy in 10 cases, was normal in 3, and showed a myopathic pattern in 1. Sural nerve biopsy obtained in a single patient was considered histologically normal. Plasma citrate and plasma pyruvate levels obtained in 5 patients of this group, showed elevated values for plasma citrate with normal plasma pyruvate levels. Conspicuous absence of pyramidal signs, elevated plasma citrate, normal plasma pyruvate values and the extremely slow progression suggest that this group of patients are different from other varieties of anterior horn cell dysfunction previously described.