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find Keyword "Usher syndromes" 5 results
  • Current research in the genes and proteins related with Usher syndrome

    Usher syndrome (USH) is an autosomal recessive hereditary disease, characterized as retinitis pigmentosa and deafness. According to the severity of hearing loss, presence or absence of vestibular dysfunction, Usher syndrome is divided into 3 clinical subtypes: USH1, USH2 and USH3. Due to the genetically heterogeneous, it is important and valuable to find out the gene mutations in USH patients, which will be helpful to prenatal diagnosis, early intervention and gene therapy. Till now, the following 13 USH-related chromosomal loci were reported in the literature: USH1B, USH1C, USH1D (CDH23 gene), USH1F (PCDH15 gene), USH1G (SANS gene), USH1E, USH1H, USH1J and USH1K, USH2A, USH2C, USH2D and USH3 (CLRN1 gene). Ten out of all 13 loci have been located and identified. But more mechanisms should be further investigated, such as the relationship between the locus of gene mutations and clinical symptoms, how the modified protein structures and functions trigger clinical symptoms.

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  • Novel mutations in the USH2A gene in a family affected with Usher syndrome type 2

    ObjectiveTo identify the pathogenic genes and mutations in a family with Usher syndrome type 2.MethodsA three-generation family including 7 individuals was enrolled in this study. There were 2 male patients and 5 unaffected individuals. All participants was underwent related ophthalmologic examination, including best corrected visual acuity, slit-lamp, indirect ophthalmoscopy, electroretinogram (ERG), optical coherence tomography and visual field test. DNA was extracted from 3 ml peripheral venous blood of all participants. A total of 136 hereditary retinal disease target genes were screened and the DNA sequence was performed by Next-generation sequence analysis. Then the suspected mutations compared with databases to identify the suspected mutations, which should be verified with non-affected family members and 100 normal subjects by PCR and Sanger sequence.ResultsThe sequence result showed that 2 patients, the proband and his brother, carried complex heterozygous mutations in the USH2A gene: c.5459T>C (p.M1820T) in exon 27, c.802G>A (p.G268R) in exon 5 and c.1190T>A (p.I397K) in exon 7. The c.5459T>C and c.1190T>A mutations in USH2A have not been reported in the literature and database. Although their mother carried c.5459T>C (p.M1820T) and c.802G>A (p.G268R), and their father carried c.1190T>A (p.I397K) heterozygous mutations, the parents did not present phenotype. These mutations were not detected in other normal family members. The result was supported by co-segregation analysis.ConclusionThe heterozygous mutations c.5459T>C (p.M1820T), c.1190T>A (p.I397K) and c.802G>A (p.G268R) in USH2A gene cause Usher syndrome in this family.

    Release date:2018-05-18 06:38 Export PDF Favorites Scan
  • Analysis of USH2A gene mutation and clinical phenotype in families with Usher syndrome type 2 and retinitis pigmentosa

    ObjectiveTo observe the gene mutations and clinical phenotypes in patients with Usher syndrome type 2 (USH2) and retinitis pigmentosa (RP).Methods From August 2018 to January 2019, 4 patients and 11 normal family members from 3 families of USH2 and RP who visited Henan Eye Hospital were enrolled in the study. Detailed medical history was obtained and visual acuity, fundus color photography, OCT, visual field, full field ERG examination were performed. Among the three families, pedigree 1 was diagnosed with USH2, pedigree 2 and pedigree 3 were diagnosed with RP. The peripheral venous blood of patients and their family members were collected, and the whole genomic DNA was extracted. Targeted capture next generation sequencing analysis was performed on these members, and Sanger sequencing and family co-segregation were verified.ResultsIn the family F1, the proband had symptoms of RP and sensorineural deafness. Sequencing revealed two heterozygous frameshift variants: c.13877-13880 del AGAC (p. Q4626P) in exon 64 and c.798 del T (p. F266L) in exon 5 of USH2A. Both patients of family 2 and 3 showed RP signs without deafness. Two heterozygous variants c.15178T>C (p. S5060 P) in exon 70 and c.6986C>A (p. P2329H) in exon 37, and a pathogenic heterozygous variant c.5836C>T (p. R1946X) in exon 29 of USH2A were identified in family F2. A heterozygous missense variant c.14951C>T (p. P4984L) in exon 68 and a variant c.11156G>A (p. R3719H) in exon 57 of USH2A were found in family F3. The results of conservation analysis showed that the corresponding amino acid sites of USH2A p.Q4626P, p.F266L, p.S5060P, p.P2329H and p.P4984L were highly conserved in many species. Among these 7 pathogenic variants detected, M1-M4 and M6 were novel.ConclusionsMutation USH2A gene are the main cause of USH2 and non-syndromic RP. Different variants affect protein translation and synthesis, consequently causing different clinical phenotypes.

    Release date:2020-04-18 07:44 Export PDF Favorites Scan
  • Advances of Usher syndrome and USH2A gene

    Usher syndrome (USH) is the most common cause of deaf-blindness diseases characterized by sensorineural hearing loss and retinitis pigmentosa. Patients are clinically and genetically heterogeneous, however, there are no convincing methods for prevention and treatment. USH2A is the most common disease-causing gene among 14 genes related to Usher syndrome. Great progress has been achieved in the pathogenic mechanism, animal models studies, diagnosis, and treatments based on gene therapy, cells transplantation and antisense oligonucleotide-based splice correction. Mutations in USH2A result in defects in USH complex proteins which involved in the transport function of the peripheral cilia region. There is respective limitations in established mouse and zebrafish animal models. Two promising treatments of this disease are introduced. One is clinical transplantation of visual organs which induced from corrected patient-derived induced pluripotent stem cells by the CRISPR/Cas9 system and another one is the RNA splicing therapy based on antisense oligonucleotides.

    Release date:2020-04-18 07:44 Export PDF Favorites Scan
  • Research status of ciliary dysfunction and visual development related diseases

    Cilia are hair-like protuberance on cells of the human body that play a vital role in organs generation and maintenance. Abnormalities of ciliary structure and function affect almost every system of the body, such as the brain, eyes, liver, kidney, bone, reproductive system and so on. Retinal photoreceptor cells are one of sensory neurons which convert light stimuli into neurological responses. This process, called phototransduction, takes place in the outer segments (OS) of rod and cone photoreceptors. OS are specialized sensory cilia, and disruptions in cilia genes, which are causative in a growing number of non-syndromic retinal dystrophies, such as retinitis pigmentosa, Leber’s congenital amaurosis. These syndromes are genetically heterogeneous, involving mutations in a large number of genes. They show considerable clinical and genetic overlap. At present, there are few researches on retinal ciliopathies and clinical treatment strategy. This review shows a comprehensive overview of ciliary dysfunction and visual development related diseases, which contributes to understand the characteristics of these diseases and take early intervention in clinic.

    Release date:2020-09-22 04:09 Export PDF Favorites Scan
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