Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0004134 (ataxia)
15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We experienced a 15-year-old female, whose healthy parents were second cousins, who was suspected of having dysmyelinating disease involving only the central nervous system (CNS). She was noticed to have congenital pendula nystagmus, and spastic gait disturbance developed at the age of 10 years. Mild athetosis of the upper limbs and ataxia were recognized at age 13 years, and dysarthria presented at age 15. MRI and electrophysiological findings showed the characteristics of Pelizaeus-Merzbacher disease (PMD), although the extensive nerve conduction slowing of the CNS was less severe than that in male patients with PMD. No promoter or exonic mutations of proteolipid protein (PLP) gene were detected. Although this patient might be heterozygous for a mutation of the extraexonic PLP gene sequences or of other unknown X-linked PLP associated genes, we speculate that this case had a dysmyelinating disease with an autosomal recessive trait characterized by the same phenotype as that of PMD.
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PMID:Pelizaeus-Merzbacher-like disease: female case report. 873 1

Linkage analysis is described in a family with X-linked mental retardation, ataxia, weakness, floppiness, delayed motor development, absence of deep tendon reflexes, hearing impairment and loss of vision (MIM no. 301835). The disease has a fatal course due to the susceptibility of the patients to infections, especially of the respiratory tract. Clinical signs indicate impairment of the posterior columns, peripheral motor and sensory neurons and the second and eighth cranial nerves and/or their nuclei. The involvement of the posterior columns of the spinal cord is further suggested by the almost complete absence of myelinated fibers therein. We localized the responsible gene(s) to Xq21.33-q24 between DXS1231 and DXS1001 with a maximum lod score of 6.97. The proteolipid protein gene, which codes for two myelin proteins of the central nervous system and is located in this region, was considered as a candidate gene for this disorder. However, no mutations were found in the protein-coding part of this gene.
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PMID:Localization of the gene (or genes) for a syndrome with X-linked mental retardation, ataxia, weakness, hearing impairment, loss of vision and a fatal course in early childhood. 888 66

Mutations of the proteolipid protein (Plp) gene cause a generalized central nervous system (CNS) myelin deficit in Pelizaeus-Merzbacher disease of man and various tremor syndromes in animal models. X-linked spastic paraplegia is also due to Plp gene mutations but has a different clinical profile and more restricted pathology involving specific tracts and regions. We have shown previously that PLP overexpression in mice homozygous for a Plp transgene results in premature arrest of CNS myelination and premature death. Here, we demonstrate that a low-level increase in Plp gene expression in transgenic mice causes significant axonal degeneration and demyelination with predilection for specific tracts. Following normal motor development, aged mice develop progressive myelin loss, axonal swellings with resultant Wallerian degeneration, and marked vacuolation of the neuropil associated with ataxia, tremor, and seizures. The age of onset and severity of the phenotype is a function of Plp gene dosage. The corticospinal tracts, optic nerve, fasciculus gracilis cerebellum, and brainstem are particularly involved. Although oligodendrocyte cell bodies show little abnormality, their inner adaxonal tongue is often abnormal, suggesting a perturbation of the axon/glial interface that may underlie the axonal changes. We conclude that abnormal expression of an oligodendrocyte-specific gene can cause axonal damage, a finding that is relevant to the pathogenesis of PLP-associated disorders and probably to other myelin-related diseases.
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PMID:Late-onset neurodegeneration in mice with increased dosage of the proteolipid protein gene. 959 May 58

We report neuropathological, biochemical and molecular studies on two patients with childhood ataxia with diffuse central nervous system hypomyelination (CACH) syndrome, a leukodystrophy recently defined according to clinical and radiological criteria. Both had severe cavitating orthochromatic leukodystrophy without atrophy, predominating in hemispheric white matter, whereas U-fibers, internal capsule, corpus callosum, anterior commissure and cerebellar white matter were relatively spared. The severity of white matter lesions contrasted with the rarity of myelin breakdown products and astroglial and microglial reactions. In the white matter, there was an increase in a homogeneous cell population with the morphological features of oligodendrocytes, in many instances presenting an abundant cytoplasm like myelination glia. These cells were negative for glial fibrillary acidic protein and antibodies PGM1 and MIB1. Some were positive for myelin basic protein, proteolipid protein (PLP), and myelin oligodendrocyte glycoprotein, but the majority were positive for human 2'-3' cyclic nucleotide 3' phosphodiesterase and all were positive for carbonic anhydrase II, confirming that they are oligodendrocytes. Myelin protein and lipid content were reduced. The PLP gene, analyzed in one case, was not mutated or duplicated. The increased number of oligodendrocytes without mitotic activity suggests an intrinsic oligodendroglial defect or an abnormal interaction with axons or other glial cells. This neuropathological study supports the notion that CACH syndrome constitutes a specific entity.
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PMID:Increased density of oligodendrocytes in childhood ataxia with diffuse central hypomyelination (CACH) syndrome: neuropathological and biochemical study of two cases. 1033 84

We report the autopsy cases of two brothers which are pathologically compatible with Pelizaeus-Merzbacher disease (PMD). Both patients had a late onset (at the ages of 29 and 42 years) and chronic neurological symptoms including tremor, ataxia and dementia. The T2-weighted magnetic resonance imaging of the younger brother demonstrated increased signal areas with sparing of small areas in the cerebral white matter. The postmortem examinations, obtained at the ages of 45 and 61 years, showed similar neuropathological findings. Histologically, a cardinal finding was a lack of myelin in large parts of white matter with the preservation of islands of intact myelin, resulting in a "tigroid" appearance. Only small amounts of sudanophilic material were present. The axons were relatively well preserved, but oligodendrocytes were numerically reduced. Ultrastructurally, myelin sheaths in the white matter were markedly thin. Immunohistochemistry showed that proteolipid protein (PLP) was reduced in the affected white matter. However, genetic studies did not reveal exonic mutations or duplications of the PLP gene. We conclude that the two cases are a rare type of dysmyelinating disorder with PMD phenotype of adult onset and could be caused by previously unrecognized abnormalities of the PLP gene or other genes.
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PMID:Two autopsy cases with Pelizaeus-Merzbacher disease phenotype of adult onset, without mutation of proteolipid protein gene. 1065 Oct 21

This review centers on important recent advances in the understanding of the role of glial fibrillary acidic protein in Alexander disease and of proteolipid protein in hypomyelinating disorders such as Pelizaeus-Merzbacher and spastic paraplegia. We also describe seven novel leukodystrophies. These include childhood ataxia with central nervous system hypomyelination, a relatively common leukodystrophy syndrome with linkage to chromosome 3 in some patients, and megalencephalic leukoencephalopathy with subcortical cysts whose gene has recently been cloned. These, along with five other disorders, including leukodystrophy with polyol metabolism abnormality, demonstrate that an increasing number of protein and metabolic abnormalities can cause primary myelin disorders.
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PMID:An update on the leukodsytrophies. 1172 90

Pelizaeus Merzbacher disease is an X-linked dysmyelinating disorder of the CNS, resulting from mutations in the proteolipid protein (PLP) gene. An animal model for this disorder, the myelin-deficient (MD) rat, carries a point mutation in the PLP gene and exhibits a phenotype similar to the fatal, connatal disease, including extensive dysmyelination, tremors, ataxia, and death at approximately postnatal day 21 (P21). We postulated that early death might result from disruption of myelinated neural pathways in the caudal brainstem and altered ventilatory response to oxygen deprivation or hypercapnic stimulus. Using barometric plethysmography to measure respiratory function, we found that the MD rat develops lethal hypoxic depression of breathing at P21, but hypercapnic ventilatory response is normal. Histologic examination of the caudal brainstem in the MD rat at this age showed extensive dysmyelination and downregulation of NMDA and to a lesser extent GABA(A) receptors on neurons in the nucleus tractus solitarius, hypoglossal nucleus, and dorsal motor nucleus of the vagus. Unexpectedly, immunoreactive PLP/DM20 was detected in neurons in the caudal brainstem. Not all biosynthetic functions and structural elements were altered in these neurons, because phosphorylated and nonphosphorylated neurofilament and choline acetyltransferase expression were comparable between MD and wild-type rats. These findings suggest that PLP is expressed in neurons in the developing brainstem and that PLP gene mutation can selectively disrupt central processing of afferent neural input from peripheral chemoreceptors, leaving the central chemosensory system for hypercapnia intact.
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PMID:Proteolipid protein gene mutation induces altered ventilatory response to hypoxia in the myelin-deficient rat. 1265 85

A 10-year-old boy developed corticosteroid-responsive relapsing neurologic signs, including nystagmus and ataxia. MRI revealed multifocal T2 white matter hyperintensities; several were gadolinium-enhancing. CSF contained oligoclonal bands. Although the patient met criteria for multiple sclerosis (MS), the proteolipid protein-1 gene (PLP1) contained a mutation in exon 3B (c.409C>T), predicting a tryptophan-for-arginine substitution. This case raises questions about the role of inflammation in PLP1-related disorders and, conversely, PLP1 mutations in MS.
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PMID:Steroid-responsive neurologic relapses in a child with a proteolipid protein-1 mutation. 1743 21

Pelizaeus-Merzbacher disease (PMD) is a rare X-linked recessive disorder characterized by nystagmus, impaired motor development, ataxia, and progressive spasticity. Genetically defective or altered levels of proteolipid protein (PLP1) or gap-junction alpha protein 12 gene have been found to be a common cause. Here we report on two large Han Chinese families affected with this disease. The probands of both families had produced sons featuring cerebral palsy that had never been correctly diagnosed. PMD was suspected after careful analysis of family history and clinical features. Three rounds of molecular testing, including RT-PCR, genetics linkage and SRY sequence analyses, in combination with fetal ultrasound and magnetic resonance imaging, confirmed the diagnosis. In Family 1, in addition to two patients, three carriers were identified, including one who was not yet married. Genetic testing indicated that a fetus did not have the disease. A healthy girl was born later. In Family 2, two patients and two carriers were identified, while a fetus was genetically normal. A healthy girl was born later. We concluded that by combining genetic testing and imaging, awareness of the symptoms of PMD and understanding of its molecular biology, there is great benefit for families that are at risk for producing offspring affected with this severe disease.
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PMID:Combined genetic and imaging diagnosis for two large Chinese families affected with Pelizaeus-Merzbacher disease. 2291 87

We reported on a male patient with rare leukoencephalopathy and skeletal abnormalities. The condition was first noticed as a developmental delay, nystagmus and ataxia at 1 year of age. At 4 years of age, he was diagnosed as hypomyelination with skeletal abnormalities from clinical features, brain magnetic resonance imaging (MRI) and skeletal X-rays. His brain MRI revealed diffuse hypomyelination. These findings suggested the classical type of Pelizaeus-Merzbacher disease (PMD) caused by proteolipid protein (PLP)-1 gene or Pelizaeus-Merzbacher-like disease (PMLD). However, we found neither mutation nor duplication of PLP-1. The patient had severe growth retardation and general skeletal dysplasia compatible with spondylo-epi-metaphyseal dysplasia; however the mutation of discoidin domain receptor (DDR) 2 gene was absent. The co-morbidity of hypomyelination with skeletal abnormalities is rare. We performed array CGH and no causal copy number variation was recognized. Alternatively, this condition may have been caused by a mutation of the gene encoding a molecule that functions in both cerebral myelination and skeletal development.
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PMID:A case of cerebral hypomyelination with spondylo-epi-metaphyseal dysplasia. 2323 15


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