Differential effects of PINK1 nonsense and missense mutations on mitochondrial function and morphology.

Mutations of the PINK1 gene are a cause of autosomal recessive Parkinson's disease (PD). PINK1 encodes a mitochondrial kinase of unknown function which is widely expressed in both neuronal and non-neuronal cells. We have studied fibroblast cultures from four family members harbouring the homozygous p.Q456X mutation in PINK1, three of their wild-type relatives, one individual with the homozygous p.V170G mutation and five independent controls. Results showed bioenergetic abnormalities involving decreased activities of complexes I and IV along with increased activities of complexes II and III in the missense p.V170G mutant. There were increased basal levels of mitochondrial superoxide dismutase in these cells and an exaggerated increase of reduced glutathione in response to paraquat-induced free radical formation. Furthermore, swollen and enlarged mitochondria were observed in this sample. In the p.Q456X nonsense mutants, the respiratory chain enzymes were unaffected, but ATP levels were significantly decreased. These results confirm that mutations of PINK1 cause abnormal mitochondrial morphology, bioenergetic function and oxidative metabolism in human tissues but suggest that the biochemical consequences may vary between mutations.

The use of nerve and muscle biopsy in the diagnosis of vasculitis: a 5 year retrospective study.

INTRODUCTION: Peripheral nerve vasculitis is an important condition which can be diagnostically challenging and is one of the principal current indications for nerve and muscle biopsy. Previous studies have suggested that combined nerve and muscle biopsy (usually of the superficial peroneal nerve and peroneus brevis muscle) produces a higher diagnostic yield than nerve biopsy alone in the investigation of vasculitis. OBJECTIVE: To determine whether in our two centres combined nerve (usually the sural) and muscle (usually the vastus lateralis) biopsy improved diagnostic yield compared with nerve biopsy alone. METHODS: We interrogated our database of all nerve biopsies (usually of the sural nerve) performed at our institutions over 5 years and identified 53 cases of biopsy proven peripheral nerve vasculitis. Clinicopathological and neurophysiological data in these patients were reviewed. RESULTS: The most common clinical presentation was with a painful asymmetric axonal polyneuropathy or mononeuritis multiplex (66% of cases). Nerve biopsy demonstrated definite vasculitis in 36%, probable vasculitis in 62% and no vasculitis in 2% of cases. In 24 patients a muscle biopsy (usually the vastus lateralis) was also performed and vasculitis was demonstrated in 46% of these (in 13% showing definite and 33% probable vasculitis). There was only one patient in whom vasculitis was demonstrated in muscle but not in peripheral nerve. CONCLUSION: Combined nerve (usually sural) and vastus lateralis muscle biopsy did not significantly increase the diagnostic yield compared with nerve biopsy alone. A sensible approach to the diagnosis of peripheral nerve vasculitis is to choose a nerve to biopsy which is clinically affected and amenable to biopsy. If the sural nerve is chosen, the data suggest that it is not routinely worth doing a vastus lateralis biopsy at the same time, whereas if the superficial peroneal nerve is chosen, it seems appropriate to do a combined superficial peroneal nerve and peroneus brevis biopsy. It is still not known if both the sural and superficial peroneal nerves are involved clinically which one gives the higher yield if biopsied.

Sural nerve pathology in diabetic patients with minimal but progressive neuropathy.

AIMS/HYPOTHESIS: The early pathological features of human diabetic neuropathy are not clearly defined. Therefore we quantified nerve fibre and microvascular pathology in sural nerve biopsies from diabetic patients with minimal neuropathy. METHODS: Twelve diabetic patients underwent detailed assessment of neuropathy and fascicular sural nerve biopsy at baseline, with repeat assessment of neuropathy 8.7+/-0.6 years later. RESULTS: At baseline, neuropathic symptoms, neurological deficits, quantitative sensory testing, cardiac autonomic function and peripheral nerve electrophysiology showed minimal abnormality, which deteriorated at follow-up. Myelinated fibre density, fibre and axonal area, and g-ratio were normal but teased fibre studies showed paranodal abnormalities (p<0.001), segmental demyelination (p<0.01) and remyelination (p<0.01) without axonal degeneration. Unassociated Schwann cell profile density (p<0.04) and unmyelinated axon density (p<0.001) were increased and axon diameter was decreased (p<0.007). Endoneurial capillaries demonstrated basement membrane thickening (p<0.006), endothelial cell hyperplasia (p<0.004) and a reduction in luminal area (p<0.007). CONCLUSIONS/INTERPRETATION: The early pathological features of human diabetic neuropathy include an abnormality of the myelinated fibre Schwann cell and unmyelinated fibre degeneration with regeneration. These changes are accompanied by a significant endoneurial microangiopathy.

A case of severe congenital chronic inflammatory demyelinating polyneuropathy with complete spontaneous remission.

Chronic inflammatory demyelinating polyneuropathy (CIPD) is characterised by progressive weakness, hyporeflexia and electrophysiological evidence of demyelination with maximal neurological deficit reached after at least 8 weeks progression. CIPD rarely affects children. We present a neonate with clinical features compatible with congenital CIPD. A term male infant of non-consanguineous parents was referred to us at birth with weakness and contractures affecting his legs, suggesting a prenatal onset of immobility. He also had evidence of bulbar dysfunction with poor suck, recurrent aspiration and requiring nasogastric feeding. He had no antigravity movements in the legs, bilateral wrist drop, distal joint contractures and absent deep tendon reflexes. Electromyography showed neurogenic changes, with nerve conduction velocities markedly reduced, increased distal motor latency and dispersed compound muscle action potentials. Cerebrospinal fluid protein was raised. Sural nerve biopsy demonstrated decreased numbers of myelinated fibres and inflammatory cell infiltrates. Muscle biopsy showed denervation. He only received supportive treatment and by 6 months he had fully recovered, and all electrophysiological parameters had normalised.

Peripheral nerve granuloma in a patient with tuberculosis.

The cause of peripheral neuropathy associated with tuberculosis is controversial. Possibilities include an immune mediated neuropathy, direct invasion of nerves, vasculitic neuropathy, compressive neuropathy, a meningitic reaction, and the toxic effects of antituberculous chemotherapy. This report describes the unusual finding of granulomas in the peripheral nerve of a patient with tuberculosis. The pathological findings were of a delayed hypersensitivity reaction, but with no more specific indications of the mechanism of the neuropathy.

Peripheral nerve regeneration in galactosaemic rats.

The use of galactosaemia as a model for some aspects of diabetic polyneuropathy allows the influence of glycation to be studied independently of other effects. There are well-studied abnormalities of the peripheral nerves in galactosaemic rats, one of which is that the efficiency of regeneration is initially reduced. One possible cause could be that glycated myelin debris in macrophages is less degradable and interferes with macrophage function. Macrophage recognition and ingestion of myelin glycosylated in vitro increases with the duration of incubation in a sugar-rich medium. This study was performed to investigate a possible correlation between galactosaemia and regeneration, together with the role of macrophages. Galactosaemia was induced by adding galactose to the rats' diet for 2 months before injury. Following a crush lesion to the sciatic nerve, regeneration was found to be delayed, demonstrated by a reduction in mean myelinated fibre size and density 1 month after crush, although, 2 and 3 months later, the differences did not reach statistical significance. There were also more macrophages in the galactosaemic rats than in the control animals at all time points. The initial delay in regeneration in galactosaemic rats was therefore only temporary and there was little evidence of long-term deleterious effects. In addition to the morphometric results, immunohistochemistry showed that there were more macrophages in the galactosaemic rats than in the control animals at all time points. Correlating macrophage and myelinated fibre counts suggests that the persistence of debris-containing macrophages does not appear to have a significant inhibitory effect on nerve regeneration. No evidence was found for persistent basal laminal tubes around the regenerating clusters.

Comparison of a new pmp22 transgenic mouse line with other mouse models and human patients with CMT1A.

Charcot-Marie-Tooth disease type 1A is a dominantly inherited demyelinating disorder of the peripheral nervous system. It is most frequently caused by overexpression of peripheral myelin protein 22 (PMP22), but is also caused by point mutations in the PMP22 gene. We describe a new transgenic mouse model (My41) carrying the mouse, rather than the human, pmp22 gene. The My41 strain has a severe phenotype consisting of unstable gait and weakness of the hind limbs that becomes obvious during the first 3 weeks of life. My41 mice have a shortened life span and breed poorly. Pathologically, My41 mice have a demyelinating peripheral neuropathy in which 75% of axons do not have a measurable amount of myelin. We compare the peripheral nerve pathology seen in My41 mice, which carry the mouse pmp22 gene, with previously described transgenic mice over-expressing the human PMP22 protein and Trembler-J (TrJ) mice which have a P16L substitution. We also look at the differences between CMT1A duplication patients, patients with the P16L mutation and their appropriate mouse models.

Effects of nonenzymatic glycosylation of extracellular matrix components on cell survival and sensory neurite extension in cell culture.

Diabetic sensory polyneuropathy is characterized by a distal axonopathy of dying-back type. It is accompanied by a failure of axonal regeneration, in which nonenzymatic glycosylation (glycation) of the extracellular matrix may be involved. In the present study, the effects of glycation of collagen IV and laminin, major components of basal lamina, on neuron survival and neurite extension were investigated in tissue culture. Fast glycation of laminin was achieved by incubation with glycolaldehyde and glycation of collagen IV by incubation with glucose. The degree of glycation was estimated by fluorescence analysis. Glycated or nonglycated laminin or collagen IV were used as substrates for culture of dorsal root ganglion (DRG) neurons from neonatal rats. Cultures were assessed for the proportion of cells attaching to the substrate, surviving and bearing neurites. Cell attachment and the proportion bearing neurites were significantly reduced on collagen IV glycated for 2 weeks, but survival was only affected by glycation for 4 or 5 weeks. All 3 parameters were significantly reduced on glycated compared with unglycated laminin. Glycation of both laminin and collagen IV produced considerable morphological differences in the cultured neurons on scanning electron microscopy. Dissociated DRG neurons from adult animals with streptozotocin-induced diabetes cultured on nonglycated substrates survived less well and produced fewer neurites. Glycation of collagen IV and laminin thus affects neuronal survival, neurite production and cell morphology, and diabetes affects both the survival of sensory neurons in culture and their ability to extend neurites.

The role of glycation in the pathogenesis of diabetic polyneuropathy.

The most common neuropathy associated with diabetes mellitus is a distal sensory polyneuropathy. The relative importance of the direct effects of prolonged glycaemia on nervous tissue compared with indirect damage resulting from changes in blood vessels is not known. Although the importance of glycaemia is confirmed by a study showing that the incidence of neuropathy is greatly reduced by strict glycaemic control, many of the details of the deleterious effects of glycaemia on the peripheral nervous system (PNS) are not understood. These may be the result of direct damage to any of the cells in the PNS or the disruption of neuronal metabolism, axonal transport mechanisms, or repair capabilities; in addition, they may result from the effects of glycation on PNS connective tissue or a combination of some or all of the above mentioned mechanisms. The relative importance of these various mechanisms by which diabetes damages the PNS is a matter of conjecture. Therapeutic approaches targeting a specific mechanism such as those utilising aldose reductase inhibitors, or advanced glycation endproduct inhibitors have met with limited success. Clearly, it is difficult to design a treatment for diabetic neuropathy while its pathogenesis is still poorly understood.

Hereditary motor and sensory neuropathy-russe: new autosomal recessive neuropathy in Balkan Gypsies.

A novel peripheral neuropathy of autosomal recessive inheritance has been identified in Balkan Gypsies and termed hereditary motor and sensory neuropathy-Russe (HMSN-R). We investigated 21 affected individuals from 10 families. Distal lower limb weakness began between the ages of 8 and 16 years, upper limb involvement beginning between 10 and 43 years, with an average of 22 years. This progressive disorder led to severe weakness of the lower limbs, generalized in the oldest subject (aged 57 years), and marked distal upper limb weakness. Prominent distal sensory loss involved all modalities, resulting in neuropathic joint degeneration in two instances. All patients showed foot deformity, and most showed hand deformity. Motor nerve conduction velocity was moderately reduced in the upper limbs but unobtainable in the legs. Sensory nerve action potentials were absent. There was loss of larger myelinated nerve fibers and profuse regenerative activity in the sural nerve. HMSN-R is a new form of autosomal recessive inherited HMSN caused by a single founder mutation in a 1 Mb interval on chromosome 10q.

Mutations in the 5' region of the myotubularin-related protein 2 (MTMR2) gene in autosomal recessive hereditary neuropathy with focally folded myelin.

Focally folded myelin has been recognized as a distinctive feature in some individuals with severe inherited demyelinating neuropathy, with an onset in childhood. Such cases have been shown to be genetically heterogeneous. Alterations in the myotubularin-related protein 2 (MTMR2) gene on chromosome 11q22 have recently been shown to give rise to this phenotype. Mutations have been identified in the 3' region of the MTMR2 gene in four unrelated families, in two of whom the disorder had been mapped to chromosome 11q22 by genetic linkage analysis. We have sequenced the entire coding region and flanking intronic regions of the MTMR2 gene in eight families with early onset autosomal recessive neuropathies. Two novel mutations were identified in exon 4 at the 5' end of the MTMR2 gene in an English and an Indian family. The clinical phenotype and sural nerve pathology in these two families differs in severity, with the proband in the English family having an earlier onset and more severe neuropathy with prominent cranial nerve involvement. This is probably due to mutation type and possible involvement of small nucleotide polymorphisms in phenotype modulation. Detailed sural nerve pathology is presented in both cases. Mutations in the MTMR2 gene are thus an important cause of autosomal recessive demyelinating neuropathy. Identifying further mutations and defining their phenotype will help to clarify the genetic classification of this group of disorders.

Induced myelination and demyelination in a conditional mouse model of Charcot-Marie-Tooth disease type 1A.

Charcot-Marie-Tooth disease type 1A, a hereditary demyelinating neuropathy, is usually caused by overexpression of peripheral myelin protein 22 (PMP22) due to a genomic duplication. We have generated a transgenic mouse model in which mouse pmp22 overexpression can be regulated. In this mouse model, overexpression of pmp22 occurs specifically in Schwann cells of the peripheral nerve and is switched off when the mice are fed tetracycline. Overexpression of pmp22 throughout life (in the absence of tetracycline) causes demyelination. In contrast, myelination is nearly normal when pmp22 overexpression is switched off throughout life by feeding the mice tetracycline. When overexpression of pmp22 is switched off in adult mice, correction begins within 1 week and myelination is well advanced by 3 months (although the myelin sheaths are still thinner than normal), indicating that the Schwann cells are poised to start myelination. Upregulation of the gene in adult mice (which had previously had normal pmp22 expression) is followed by active demyelination within 1 week, which had plateaued by 8 weeks. This indicates that Schwann cells with mature myelin are sensitive to increased amounts of pmp22 such that they rapidly demyelinate. Thus, demyelination can largely be corrected within a few months, but the correction will be sensitive to subsequent upregulation of pmp22.

Inherited early onset severe axonal polyneuropathy with respiratory failure and autonomic involvement.

We report dizygotic twins who first presented at the age of 6 months with severe diaphragmatic weakness and marked abnormalities of autonomic function. A female sibling had earlier died from a disorder with similar clinical features. Both twins had a severe axonal polyneuropathy with generalized hypotonic limb weakness together with diaphragmatic paralysis resulting in respiratory failure. Associated features were tachycardia, increased sweating, elevated body temperature, and hypertension, suggesting autonomic dysfunction. Nerve conduction studies indicated an axonopathy affecting both motor and sensory nerve fibres. Sural nerve biopsy in one twin performed at the age of 7 months showed a reduced population of myelinated nerve fibres, particularly those of larger diameter, with no indication of hypomyelination, demyelination or axonal atrophy. Examples of axonal forms of hereditary motor and sensory neuropathy (HMSN) with onset in infancy are very rare and autonomic involvement associated with this condition has not so far been described.

A novel TRK A (NTRK1) mutation associated with hereditary sensory and autonomic neuropathy type V.

A boy with recurrent pyrexial episodes from early life sustained a painless ankle injury and was found to have a calcaneus fracture and, later, neuropathic joint degeneration of the tarsus. Examination revealed distal loss of pain and temperature sensation and widespread anhidrosis. Sural nerve biopsy demonstrated severe reduction in small-caliber myelinated fiber density but only modest reduction in unmyelinated axons, the pattern of type V hereditary sensory and autonomic neuropathy (HSAN V). DNA analysis showed that he was homozygous for a mutation in the NTRK1/high-affinity nerve growth factor (TrkA) gene, his parents being heterozygous. Mutations in this gene are known to be responsible for HSAN IV (congenital insensitivity to pain with anhidrosis). The two disorders are therefore likely to be allelic.

Hypertrophic perineurial dysplasia in multifocal and generalized peripheral neuropathies.

Two cases are described, one with a multifocal cranial and limb neuropathy of adult onset associated with optic neuropathy, and the other with a diffuse demyelinating neuropathy characterized by congenital cataract, mental retardation and progressive lower limb paresis with an onset in childhood. Extensive investigation in both failed to establish the causation. No family history of similar disorder was obtained in either case. Nerve biopsy in both showed similar perineurial abnormalities, the endoneurium being compartmentalized by hypertrophic perineurial cells that exhibited dysplastic features. The appearances resemble those described in a previously reported case of multifocal neuropathy and probably represent an unusual but non-specific response to a peripheral neuropathy.

Interrelationships between dietary lysine, sex, and porcine somatotropin administration on growth performance and protein deposition in pigs between 80 and 120 kg live weight.

Sixty male and 60 female crossbred pigs were allocated to an experiment to investigate the effects of porcine somatotropin (pST) administration (0 or 6 mg/d) and dietary lysine content on growth performance, tissue deposition, and carcass characteristics over the live weight range of 80 to 120 kg. Pigs receiving pST were given diets containing 6.9, 7.8, 8.8, 9.7, 10.6, or 11.5 g lysine/kg, whereas control pigs received diets containing 4.8, 5.8, 6.9, 7.8, 8.8 or 9.7 g lysine/kg. These dietary levels ranged from 0.40 to 0.70 g available lysine/MJ of DE for pST-treated pigs and from 0.28 to 0.58 g available lysine/MJ of DE for control pigs. Pigs were individually housed in pens, and there were five replicates of each treatment. All diets contained 14.5 MJ of DE/kg and were offered for ad libitum consumption to pigs between 80 and 120 kg live weight. Growth rate increased exponentially and food conversion ratio (FCR) decreased exponentially with increasing levels of lysine. In addition, there was a significant sex x pST interaction such that pST reduced the sex difference in FCR. Growth rate was faster in boars than in gilts and was increased by pST at the higher levels of dietary lysine. Similarly, FCR was lower for boars than for gilts and was decreased by pST at the higher dietary lysine levels. The optimum growth rate and FCR were defined as the lysine level at which growth rate and FCR were 95% and 105%, respectively, of the lysine plateau. The optimum growth rate and FCR were achieved at similar dietary lysine contents and were approximately 0.35 and 0.52 g available lysine/MJ of DE for control and pST-treated pigs, respectively. Protein deposition in the carcass increased exponentially with increasing dietary lysine level, was higher in boars than in gilts, and was increased by pST at the higher dietary lysine contents. Sex had no effect on dietary lysine required to maximize protein deposition. The dietary lysine contents required to ensure 95% of plateau protein deposition of 104 and 153 g/d were 0.39 and 0.55 g available lysine/MJ of DE for control and pST-treated pigs, respectively. The increase in lysine requirement with pST seems to be commensurate with the increase in protein deposition.

Hereditary motor and sensory neuropathy-Lom (HMSNL) in a Spanish family: clinical, electrophysiological, pathological and genetic studies.

The clinical, electrophysiological, pathological and genetic findings are described in the first Spanish family diagnosed with hereditary motor and sensory neuropathy type Lom (HMSNL) initially identified by Kalaydjeva et al. in 1996. The three affected patients belong to a non-consanguineous family with Gypsy background that were followed up over 10 years. Serial clinical and neurophysiological examinations and genetic analysis were undertaken in every patient. Sural nerve biopsy was performed in the oldest patient. The clinical features are similar to those previously described in HMSNL and all of them showed abnormal brain auditory evoked potentials. The oldest brother developed sensorineural deafness at the age of 20. Conduction velocities were unobtainable in all patients and nerves tested except for the median nerve in the youngest child in whom conduction was severely slowed. Neuropathological examination revealed a severely depleted nerve with very few surviving myelinated fibers which possessed thin myelin sheaths. Schwann cell processes were arranged in circular configurations without typical onion bulb configuration. Genetic analysis showed that the maternal chromosome inherited by all three affected siblings displayed a very unusual haplotype. Our patients show the characteristic clinical, electrophysiological and pathological findings described in HMSNL and represent the first reported Spanish family affected from the disease. The genetic findings in this family have contributed to refine the HMSNL critical linkage region.

Hereditary motor and sensory neuropathy--Lom (HMSNL): refined genetic mapping in Romani (Gypsy) families from several European countries.

Hereditary motor and sensory neuropathy type Lom, initially identified in Roma (Gypsy) families from Bulgaria, has been mapped to 8q24. Further refined mapping of the region has been undertaken on DNA from patients diagnosed across Europe. The refined map consists of 25 microsatellite markers over approximately 3 cM. In this collaborative study we have identified a number of historical recombinations resulting from the spread of the hereditary motor and sensory neuropathy type Lom gene through Europe with the migration and isolation of Gypsy groups. Recombination mapping and the minimal region of homozygosity reduced the original 3 cM hereditary motor and sensory neuropathy type Lom region to a critical interval of about 200 kb.

Neurological manifestations in chronic mountain sickness: the burning feet-burning hands syndrome.

OBJECTIVE: To characterise the clinical features and nerve biopsy findings in patients with chronic mountain sickness (CMS) living in the Peruvian Andes, with particular attention to the occurrence of the "burning feet-burning hands" syndrome. METHODS: Symptoms and signs were documented clinically in 10 patients with CMS and compared with those in five healthy subjects all living at 4338 metres altitude. Sural nerve biopsies were obtained from three patients with CMS. The nerve fibre population and endoneurial microvessels were analyzed morphometrically. RESULTS: All patients with CMS experienced burning and tingling paraesthesiae in the distal parts of their limbs. Similar but milder symptoms confined to the feet occurred in four of five controls. Three patients with CMS had a mild sensory neuropathy on examination, controls were clinically normal. Nerve biopsies showed a mild demyelinating neuropathy in all three with a reduction in the unmyelinated axon population in one. The endoneurial blood vessels showed a reduced thickness in the basal laminal zone compared with control values but were otherwise normal. CONCLUSIONS: Apart from well recognised symptoms and signs of CMS, the study has shown that such patients may also exhibit a mild sensory neuropathy. Its relation to the burning feet-burning hands syndrome, which was not confined to the patients but was also found in controls at altitude, is uncertain. The time course and pattern of the centrifugal resolution of the burning paraesthesiae complex on low altitude sojourn of high altitude natives raises the possibility that a mechanism involving altered axonal transport may be involved. The reduced thickness of the basal laminal zone of microvessels implies that adaptive structural changes to hypobaric hypoxia may also occur in peripheral nerve and are similar to those reported in other tissues of high altitude natives.