UMLS:C0026838 - FACTA Search

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Query: UMLS:C0026838 (spasticity)
6,471 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hereditary spastic paraplegia (HSP) is a group of genetically heterogeneous neurodegenerative disorders characterized by slowly progressive spasticity and weakness of the lower limbs. HSP is caused by failure of development or selective degeneration of the corticospinal tracts, which contain the longest axons in humans. The most common form of HSP is caused by mutations of the spastin gene (SPAST), located on chromosome 2p21-p22, which encodes spastin, one of the ATPases associated with diverse cellular activities (AAA). In this study, we detected four causative mutations of SPAST among 14 unrelated patients with spastic paraplegia. Two missense mutations (1447A-->G, 1207C-->G) and two deletion mutations (1465delT, 1475-1476delAA) were located in the AAA cassette region. Three of these four mutations were novel. Previous reports and our results suggest that the frequency of SPAST mutations is higher among Japanese patients with autosomal dominant HSP, although SPAST mutations are also observed in patients with sporadic spastic paraplegia.
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PMID:Four mutations of the spastin gene in Japanese families with spastic paraplegia. 1678 34

Hereditary spastic paraparesis (HSP) is characterized by progressive spasticity and weakness of the legs with or without additional abnormalities. Reports of psychiatric disorders in patients with HSP are limited to mood disturbances rather than to psychosis. We had noted significant psychotic illness in several patients recruited to a survey of HSP in Ireland and therefore set about examining the frequency and nature of psychosis in our patients with HSP. Cases with HSP and psychotic illness were identified from a nationwide epidemiological and clinical study. Psychiatric case notes were reviewed and Operational Diagnostic Criteria Checklist (OPCRIT) applied. Six patients from four families with HSP had evidence of psychosis in addition to paraparesis. OPCRIT diagnoses were 'narrow schizophrenia' (n = 2), 'broad schizophrenia' (n = 2) and 'schizo-affective/manic disorder' (n = 2). Patients were from families with Kjellin's syndrome and SPG4-HSP but not other kindreds and psychosis was not evident in family members without HSP. We found a higher than expected rate of psychosis in the Irish HSP population. Two groups of HSP patients may have increased risk of developing psychosis: those with Kjellin's syndrome and those with SPG4-HSP.
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PMID:Hereditary spastic paraparesis and psychosis. 1687 99

Hereditary spastic paraplegia (HSP) is a collection of neurological disorders characterized by developmental failure or degeneration of motor axons in the corticospinal tract and progressive lower limb spasticity. SPG4 mutations are the most common cause of autosomal dominant HSP and Spastin (the SPG4 gene product) is a microtubule severing protein that shares homology with katanin, the microtubule severing activity of which promotes axon growth in cultured neurons. Given the sequence and functional similarity between spastin and katanin, we hypothesized that spastin promotes the dynamic disassembly and remodelling of microtubules required for robust, properly directed motor axon outgrowth. To investigate this hypothesis, we cloned the zebrafish spg4 orthologue and used morpholino antisense oligonucleotides directed against the translation start site and the intron 7-8 splice donor site to knock down spastin function in the developing zebrafish embryo. Reduced spg4 function caused dramatic defects in motor axon outgrowth without affecting the events driving the initial specification of motor neurones. Other neuronal subtypes also exhibited a requirement for spg4 function, since spg4 knock down caused both widespread defects in neuronal connectivity and extensive CNS-specific apoptosis. Our results reveal a critical requirement for spastin to promote axonal outgrowth during embryonic development, and they validate the zebrafish embryo as a novel model system to dissect the pathogenetic mechanisms underlying HSP. Taken together with other recent studies, our findings suggest that axon outgrowth defects may be a common feature of childhood SPG3A and SPG4 cases.
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PMID:The microtubule-severing protein Spastin is essential for axon outgrowth in the zebrafish embryo. 1689 13

Hereditary spastic paraparesis (HSP) includes a heterogeneous group of neurodegenerative diseases characterised by progressive spasticity and hyper-reflexia of the lower limbs. Autosomal dominant HSP type 4 is the most common clinical form, accounting for about 40-50% of autosomal dominant HSP families. This form is due to mutation of the gene encoding spastin (SPG4), an ATP-ase associated with a variety of cellular function (AAA). Here we describe a novel missense mutation (1297T>C; 391L>P) in exon 8 of SPG4 gene, identified in 2 members (mother and son) of an Italian family with autosomal dominant HSP, clinically pure in the mother and complicated in the son. The mutation lies in a highly conserved AAA box domain between amino acids 342 and 599 in spastin sequence. In both patients, this novel mutation was associated with the absence of relatively common clinical characteristics, such as vibratory sensory deficit and loss of sphincter control, and partial temporal epilepsy, particularly in the son, with infantile onset, secondarily generalised and moderately severe neuropsychiatric symptoms.
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PMID:Identification of a novel mutation in the spastin gene (SPG4) in an Italian family with hereditary spastic paresis. 1712 56

SPG4, the gene encoding for spastin, a member of the ATPases associated with various cellular activities (AAA) family, is mutated in around 40% of cases of autosomal dominant hereditary spastic paraplegia (AD-HSP). This group of neurodegenerative diseases is characterized by a progressive spasticity and lower limb weakness with degeneration of terminal axons in cortico-spinal tracts and dorsal columns. Spastin has two main domains, a microtubule interacting and endosomal trafficking (MIT) domain at the N-terminus and the C-terminus AAA domain. Early studies suggested that spastin interacts with microtubules similarly to katanin, a member of the same subgroup of AAA. Recent evidence confirmed that spastin possesses microtubule-severing activity but can also bundle microtubules in vitro. Understanding the physiologic and pathologic involvement of these activities and their regulation is critical in the study of HSP.
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PMID:Spastin and microtubules: Functions in health and disease. 1734 41

Hereditary spastic paraplegias (HSPs) are characterized by progressive lower limb spasticity and weakness. Mutations in the SPG3A gene, which encodes the large guanosine triphosphatase atlastin, are the second most common cause of autosomal dominant hereditary spastic paraplegia. In a large SPG3A screen of 70 hereditary spastic paraplegia subjects, a novel in-frame deletion, p.del436N, was identified. Characterization of this deletion showed that it affects neither the guanosine triphosphatase activity of atlastin nor interactions between atlastin and spastin. Interestingly, immunoblot analysis of lymphoblasts from affected patients demonstrated a significant reduction in atlastin protein levels, supporting a loss-of-function disease mechanism.
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PMID:Characterization of a novel SPG3A deletion in a French-Canadian family. 1742 18

We report a 73-year-old man with SPG4. From aged 53 he had diabetes mellitus and at 64 he developed spastic paraparesis and urinary disturbance. At 70 years, he began to walk with a stick and noted abnormal sensations in bilateral feet. There was no relevant family history. Moderate spasticity with mild muscle weakness, markedly brisk tendon reflex with pathological reflexes, and mildly abnormal sensation in bilateral lower extremities, and markedly spastic gait were found. MRI showed mild C4-C7 spondylosis and L4-5 disk protrusion but no abnormality of the corpus callosum. Nerve conduction and needle EMG studies revealed various abnormalities in distal (MCV, SCV) and proximal (F-wave) peripheral nerves, but no neurogenic changes in limb muscles. We found a missense spastin gene mutation (1726T>C) that causes Leu534Pro substitution. This spastin gene mutation was novel in Japanese, but has been reported in an Italian family. The present case's neuropathy might be related to diabetes mellitus, because SPG4 is generally not associated with neuropathy. However, recent studies suggest that SPG4 patients sometimes have subclinical neuropathy, and longer disease duration may contribute to peripheral neuropathy. Further study of clinical characteristics associated with the Leu534Pro mutation will be necessary.
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PMID:[Late-onset sporadic case of SPG4 (1726T>C mutant) accompanied by polyneuropathy with diabetes mellitus]. 1763 11

The aim of our study was to evaluate Motor Evoked Potentials (MEPs) and cortical excitability, using Transcranial Magnetic Stimulation (TMS) as well as short latency Somatosensory Evoked Potentials (SEPs) in Autosomal Dominant Hereditary Spastic Paraparesis (ADHSP) patients. MEPs were recorded from upper and lower limb muscles in 12 patients (7 m and 5f) affected by ADHSP with spastin mutation (SPG4). We measured: (i) motor threshold (MTh); (ii) total motor conduction time (TMCT); (iii) direct and indirect central motor conduction time (d-CMCT and i-CMCT) calculated by subtracting from the cortical latency those obtained on magnetic spinal stimulation (d-PMCT) and via the F-wave method (i-PMCT); (iv) MEP amplitude (MEP/Mmax ratio%) and (v) duration of the cortical silent period (CSP). Latency, amplitude and persistence of the F-wave obtained with electrical nerve stimulation were also considered; H reflex was also tested from lower extremities. SEPs were recorded from spine and scalp sites following median and posterior tibial nerve stimulation; conventional latency and amplitude measurements were performed. In a comparison with the control group, the MTh recording from lower limbs was significantly higher (67.5 +/- 7.7% versus 52.5 +/- 6.9%), MEPs were absent in one case and showed reduced amplitude in the remainders (22.9 +/- 12.6% versus 66.3 +/- 25.9% of M wave); TMCT resulted to be abnormal (36.5 +/- 3.9 ms versus 27.1 +/- 1.4 ms) and d-CMCT as well as i-CMCT were significantly prolonged (23.1 +/- 3.5 ms versus 13.8 +/- 1.3 ms; and 20.1 +/- 3.4 ms versus 10.6 +/- 1.3 ms, respectively). The CSP, which was normal from the hands, was significantly shortened from the legs and correlated with spasticity scoring (Ashworth scale). Cortical SEPs from lower limbs were abnormal in all cases, whereas SEPs by stimulation of median nerves were normal; F-wave parameters from upper limbs showed no abnormalities, whereas an increased persistence was detected from lower limbs; H reflex amplitudes resulted larger compared with controls. Moreover, shortening of the CSP, being correlated with the Ashworth scale, can be considered an electrophysiological marker of spasticity that seems to arise from impairment of the supraspinal or intracortical inhibitory pathways with an additional contribution of increased segmental motor neuron excitability. These data prove the existence of comparable neurophysiological abnormalities in ADHSP with spastin mutation (SPG4) when long ascending and descending pathways are involved.
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PMID:Motor and somatosensory evoked potentials in Autosomal Dominant Hereditary Spastic Paraparesis (ADHSP) linked to chromosome 2p, SPG4. 1772 May 46

The hereditary spastic paraplegias (HSP) are heterogeneous neurodegenerative disorders characterized by progressive spasticity and weakness in the lower limbs. Axonal loss in the long corticospinal tracts has been shown. Supraspinal symptoms and findings in the most common dominant HSP type, SPG4, support the theory that the disease also causes cerebral neuronal damage in specific parts of the brain. To investigate whether SPG4-HSP is associated with neuronal biochemical changes detectable on MR spectroscopy (MRS), single-voxel proton MRS of the brain was performed in eight subjects from four families with genetically confirmed SPG4-type HSP and eight healthy age-matched controls. Volumes of interest (VOI) were located in the frontal white matter and motor cortex. N-acetyl-aspartate-to-creatine ratio (NAA/Cr), N-acetyl-aspartate-to-choline (NAA/Cho), cholin to creatin (Cho/Cr) and myo-inositol-to-creatine (Ins/Cr) ratios were calculated for both locations. Neuropsychological tests were performed to support the neuroradiological findings. The Cho/Cr ratio in motor cortex (MC) of SPG4-HSP subjects was significantly lower than in controls. This reduction of the Cho/Cr ratio in SPG4 subjects was significantly associated with age-related verbal learning- and memory (CVLT) reduction. Our findings support involvement of motor cortex in SPG4-HSP. Proton MRS could be a useful tool for detecting metabolite abnormalities in areas of brain that appear normal on MRI. Cho/Cr ratio may be a marker of neurodegenerative process in SPG4-HSP.
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PMID:Proton magnetic resonance spectroscopy and cognition in patients with spastin mutations. 1908 42

Hereditary spastic paraplegia (HSP) is characterized by weakness and spasticity of the lower limbs, owing to degeneration of corticospinal axons. The most common form is due to heterozygous mutations in the SPG4 gene, encoding spastin, a microtubule (MT)-severing protein. Here, we show that neurite growth in immortalized and primary neurons responds in pleiotropic ways to changes in spastin levels. Spastin depletion alters the development of primary hippocampal neurons leading to abnormal neuron morphology, dystrophic neurites, and axonal growth defects. By live imaging with End-Binding Protein 3-Fluorescent Green Protein (EB3-GFP), a MT plus-end tracking protein, we ascertained that the assembly rate of MTs is reduced when spastin is down-regulated. Spastin over-expression at high levels strongly suppresses neurite maintenance, while slight spastin up-regulation using an endogenous promoter enhances neurite branching and elongation. Spastin severing activity is exerted preferentially on stable acetylated and detyrosinated MTs. We further show that SPG4 nonsense or splice site mutations found in hereditary spastic paraplegia patients result in reduced spastin levels, supporting haploinsufficiency as the molecular cause of the disease. Our study reveals that SPG4 is a dosage-sensitive gene, and broadens the understanding of the role of spastin in neurite growth and MT dynamics.
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PMID:Pleiotropic effects of spastin on neurite growth depending on expression levels. 1914 Oct 76

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