UMLS:C0028738 - FACTA Search

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Query: UMLS:C0028738 (nystagmus)
7,431 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In 1885, Pelizaeus described 5 boys in a single family with nystagmus, spastic quadriparesis, ataxia, and delay in cognitive development. In 1910, Merzbacher reexamined this family, which then included 14 affected individuals, including 2 girls, and found that all affected family members shared a common female ancestor. Also, he noted that the disease was passed exclusively through the female line without male-to-male transmission. Pathological analysis of brain tissue from one affected individual showed that most of the central white matter lacked histochemical staining for myelin, although there were occasional small regions of preserved myelin, giving the sections a "tigroid" appearance. The description of this family provides the clinical, genetic, and pathological basis for Pelizaeus-Merzbacher disease (PMD): an X-linked disorder of myelination classically characterized by nystagmus, spastic quadriparesis, ataxia, and cognitive delay in early childhood.
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PMID:The molecular pathogenesis of Pelizaeus-Merzbacher disease. 1052 Sep 36

This paper reviews the author's personal experience with genetic eye diseases and discusses the significance of family studies in providing key information for the advancement of molecular research. CHOROIDEREMIA: This disease has long been known as an X-linked progressive tapetoretinal degeneration, but it was first described in Japan in 1974 after finding asymptomatic fundus changes in heterozygous female carriers that are compatible with X chromosomal inactivation. Mutations in the disease-causing gene (REP-1) provide a clue to the diagnosis and pathophysiology of the disease. LEBER'S HEREDITARY OPTIC NEUROPATHY: The clinical expression is so variable among affected individuals and families that mild optic nerve disease of insidious onset should be differentiated from autosomal dominant optic atrophy. Molecular assessment of mitochondrial DNA leads to a definite diagnosis of the disease, but mitochondrial DNA mutations do not fully account for the clinical manifestation and phenotypic variability of the disease. NORRIE DISEASE: This rare X-linked vitreoretinal dysplasia, characterized by congenital bilateral blindness, was documented in Japan some twenty years ago and the disease has been identified in four unrelated Japanese families. The disease, once diagnosed on the basis of elaborate clinical and familial studies, can now be defined by molecular assessment of the Norrie disease gene. CONGENITAL NYSTAGMUS: A four-generation family was described which presented with autosomal dominantly inherited congenital nystagmus, peripheral corneal opacity, and foveal hypoplasia without any iris tissue malformation. The diagnosis of this family was established by detection of a missense mutation in the paired domain of the PAX 6 gene, hence conforming to a forme fruste of congenital aniridia. SORSBY'S FUNDUS DYSTROPHY: Two Japanese families with Sorsby's fundus dystrophy showed late-onset retinal dystrophy characterized by submacular hemorrhage and atrophy. Our patients presented with visual loss as late as 50 years of age or older due to macula-confined degenerative changes that were similar in all respects to exudative age-related macular degeneration and showed a novel mutation in the tissue inhibitor of the metalloproteinases-3 gene. AGE-RELATED MACULAR DEGENERATION (ARMD): We have studied whether there is any association of candidate polymorphic genes involving xenobiotic or antioxidant metabolism with susceptibility to ARMD. Preliminary results suggest that the genetic polymorphism of microsomal epoxide hydrolase is related to potential risk of ARMD.
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PMID:[Introduction to genetics in ophthalmology. Value of family studies]. 1064 91

This paper reviews the author's personal experience with genetic eye diseases and discusses the significance of family studies in providing key information for the advancement of molecular research. Choroideremia: This disease has long been known as an X-linked progressive tapetoretinal degeneration, but it was first described in Japan in 1974 after finding asymptomatic fundus changes in heterozygous female carriers that are compatible with X chromosomal inactivation. Mutations in the disease-causing gene (REP-1) provide a clue to the diagnosis and pathophysiology of the disease.Leber's Hereditary Optic Neuropathy: The clinical expression is so variable among affected individuals and families that mild optic nerve disease of insidious onset should be differentiated from autosomal dominant optic atrophy. Molecular assessment of mitochondrial DNA leads to a definite diagnosis of the disease, but mitochondrial DNA mutations do not fully account for the clinical manifestation and phenotypic variability of the disease.Norrie Disease: This rare X-linked vitreoretinal dysplasia, characterized by congenital bilateral blindness, was documented in Japan some twenty years ago and the disease has been identified in four unrelated Japanese families. The disease, once diagnosed on the basis of elaborate clinical and familial studies, can now be defined by molecular assessment of the Norrie disease gene.Congenital Nystagmus: A four-generation family was described which presented with autosomal dominantly inherited congenital nystagmus, peripheral corneal opacity, and foveal hypoplasia without any iris tissue malformation. The diagnosis of this family was established by detection of a missense mutation in the paired domain of the PAX 6 gene, hence conforming to a forme fruste of congenital aniridia.Sorsby's Fundus Dystrophy: Two Japanese families with Sorsby's fundus dystrophy showed late-onset retinal dystrophy characterized by submacular hemorrhage and atrophy. Our patients presented with visual loss as late as 50 years of age or older due to macula-confined degenerative changes that were similar in all respects to exudative age-related macular degeneration and showed a novel mutation in the tissue inhibitor of the metalloproteinases-3 gene.Age-Related Macular Degeneration (ARMD): We have studied whether there is any association of candidate polymorphic genes involving xenobiotic or antioxidant metabolism with susceptibility to ARMD. Preliminary results suggest that the genetic polymorphism of microsomal epoxide hydrolase is related to potential risk of ARMD.
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PMID:Introduction to genetics in ophthalmology, value of family studies 1091 64

Blue cone monochromacy (BCM) is an X-linked ocular disease characterized by poor visual acuity, nystagmus, and photodysphoria in males with severely reduced color discrimination. Deletions, rearrangements and point mutations in the red and green pigment genes have been implicated in causing BCM. We assessed the spectrum of genetic alterations in ten families with BCM by Southern blot, polymerase chain reaction, and sequencing analysis, and the phenotype was characterized by ophthalmoscopy, fluorescein angiography, and a battery of tests to assess color vision in addition to routine ophthalmological examination. All families showed clinical features associated with BCM. Acuities were reduced in all affected males, and photopic b-wave was reduced by more than 90% in seven families. In three families, however, the photopic b-wave response showed uncharacteristic relative preservation of 30-80% (of the clinical low-normal value). The color vision was unusually preserved in two affected males, but this was not correlated with photopic electroretinography retention. Progressive macular atrophy was observed in affected members of two BCM families while the rest of the families presented with normal fundus. In nine families deletions were identified in the gene encoding the red-sensitive photopigment and/or in the region up to 17.8 kb upstream of the red gene which contains the locus control region and other regulatory sequences. In the same nine families the red pigment gene showed a range of deletions from the loss of a single exon to loss of the complete red gene. In one family no mutation was found in the exons of the red gene or the locus control region but showed loss of the complete green gene. No association was observed between the phenotypes and genotypes in these families.
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PMID:Spectrum of color gene deletions and phenotype in patients with blue cone monochromacy. 1098 39

X-linked congenital stationary night blindness (CSNB) is a nonprogressive retinal disorder characterized by impaired night vision, variably involving high myopia, nystagmus, decreased visual acuity, and strabismus. Linkage studies have identified two distinct loci for X-linked CSNB1 and CSNB2 on the short arm of chromosome X. The gene mutated in families displaying the "incomplete phenotype" of CSNB (i.e., CSNB2) has recently been identified. To identify novel candidate genes for the "complete form" of CSNB (i.e., CSNB1) we screened the physically vast region Xp11.3-Xp11.4 for cDNA sequences. This led us to identify and map the G protein coupled receptor (GPCR) gene GPR34 to Xp11.4 within 650 kb of the marker DXS993. Deletion screening via Southern blotting and direct sequencing of GPR34 revealed no mutations in 19 unrelated men with CSNB1, excluding a causal role in the disease. However, because of its expression in retinal and neural tissue and the involvement of GPCRs in transmembrane signal transduction, GPR34 remains a putative candidate gene for a number of ocular diseases which also map to the Xp11.4 region.
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PMID:Physical mapping and exclusion of GPR34 as the causative gene for congenital stationary night blindness type 1. 1098 42

X-linked congenital stationary night blindness (XLCSNB) is characterized by impaired scotopic vision with associated ocular symptoms such as myopia, hyperopia, nystagmus and reduced visual acuity. Genetic mapping in families with XLCSNB revealed two different loci on the proximal short arm of the X chromosome. These two genetic subtypes can be distinguished on the basis of electroretinogram (ERG) responses and psychophysical testing as a complete (CSNB1) and an incomplete (CSNB2) form. The CSNB1 locus has been mapped to a 5-cM linkage interval in Xp11.4 (refs 2,5-7). Here we construct and analyse a contig between the markers DXS993 and DXS228, leading to the identification of a new gene mutated in CSNB1 patients. It is partially deleted in 3 families and mutation analysis in a further 21 families detected another 13 different mutations. This gene, designated NYX, encodes a protein of 481 amino acids (nyctalopin) and is expressed at low levels in tissues including retina, brain, testis and muscle. The predicted polypeptide is a glycosylphosphatidylinositol (GPI)-anchored extracellular protein with 11 typical and 2 cysteine-rich, leucine-rich repeats (LRRs). This motif is important for protein-protein interactions and members of the LRR superfamily are involved in cell adhesion and axon guidance. Future functional analysis of nyctalopin might therefore give insight into the fine-regulation of cell-cell contacts in the retina.
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PMID:The complete form of X-linked congenital stationary night blindness is caused by mutations in a gene encoding a leucine-rich repeat protein. 1106 72

Ocular albinism type I (OA1) is an X-linked disorder characterized by severe reduction of visual acuity, strabismus, photophobia and nystagmus. Ophthalmologic examination reveals hypopigmentation of the retina, foveal hypoplasia and iris translucency. Microscopic examination of both retinal pigment epithelium (RPE) and skin melanocytes shows the presence of large pigment granules called giant melanosomes or macromelanosomes. In this study, we have generated and characterized Oa1-deficient mice by gene targeting (KO). The KO males are viable, fertile and phenotypically indistinguishable from the wild-type littermates. Ophthalmologic examination shows hypopigmentation of the ocular fundus in mutant animals compared with wild-type. Analysis of the retinofugal pathway reveals a reduction in the size of the uncrossed pathway, demonstrating a misrouting of the optic fibres at the chiasm, as observed in OA1 patients. Microscopic examination of the RPE shows the presence of giant melanosomes comparable with those described in OA1 patients. Ultrastructural analysis of the RPE cells, suggests that the giant melanosomes may form by abnormal growth of single melanosomes, rather than the fusion of several, shedding light on the pathogenesis of ocular albinism.
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PMID:Oa1 knock-out: new insights on the pathogenesis of ocular albinism type 1. 1109 54

This report reviews the recent contributions to the field of pathologic nystagmus. The classification and nomenclature of nystagmus with onset in infancy is controversial. Because there are differences in nystagmus forms between patients with idiopathic nystagmus and those with nystagmus associated with afferent sensory defects, a distinction between these two nystagmus types is proposed. The distinctions are also helpful for clinicians, because these separate entities imply different diagnostic evaluations and visual prognosis. Recent studies have confirmed that periodic alternating nystagmus is detected more easily if the patient is evaluated for a longer time period and occurs more commonly than previously thought. Psychophysical investigations indicate that extraretinal signals play an important role in suppression of oscillopsia in infantile nystagmus. Genetic analysis recently has allowed identification of genes of X-linked idiopathic nystagmus and achromatopsia.
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PMID:Nystagmus. 1114 98

Ocular albinism type 1 (OA1) is an X-linked disorder mainly characterized by congenital nystagmus and photodysphoria, moderate to severe reduction of visual acuity, hypopigmentation of the retina, and the presence of macromelanosomes in the skin and eyes. We have previously isolated the gene for OA1 and characterized its protein product as melanosomal membrane glycoprotein displaying structural and functional features of G protein-coupled receptors. We and others have identified mutations of various types within the OA1 gene in patients with this disorder, including deletions and splice site, frameshift, nonsense, and missense mutations. However, different prevalences of large intragenic deletions have been reported, ranging from 10% to 50% in independent studies. To determine whether these differences might be related to the geographic origin of the OA1 families tested, we performed a further extensive mutation analysis study leading to the identification of pathogenic mutations in 30 unrelated OA1 patients mainly from Europe and North America. These results, together with our earlier mutation reports on OA1, allow us to resolve the apparent discrepancies between previous studies and point to a substantial difference in the frequency of large intragenic deletions in European (<10%) compared with North American (>50%) OA1 families. These observations and our overall refinement of point mutation distribution within the OA1 gene have important implications for the molecular diagnosis of OA1 and for the establishment of any mutation detection program for this disorder.
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PMID:Diverse prevalence of large deletions within the OA1 gene in ocular albinism type 1 patients from Europe and North America. 1121 7

Incomplete X-linked congenital stationary night blindness (CSNB) is a recessive, non-progressive eye disorder characterized by abnormal electroretinogram and psychophysical testing and can include impaired night vision, decreased visual acuity, myopia, nystagmus, and strabismus. Including the 20 families previously reported (Bech-Hansen et al. 1998b), we have now analyzed patients from a total of 36 families with incomplete CSNB and identified 20 different mutations in the calcium channel gene CACNA1F. Three of the mutations account for incomplete CSNB in two or more families, and a founder effect is clearly demonstrable for one of these mutations. Of the 20 mutations identified, 14 (70%) are predicted to cause premature protein truncation and six (30%) to cause amino acid substitutions or deletions at conserved positions in the alpha1F protein. In characterizing transcripts of CACNA1F we have identified several splice variants and defined a prototypical sequence based on the location of mutations in splice variants and comparison with the mouse orthologue, Cacnalf.
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PMID:A summary of 20 CACNA1F mutations identified in 36 families with incomplete X-linked congenital stationary night blindness, and characterization of splice variants. 1128 58

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