ObjectiveTo observe the clinical manifestation and gene mutation of a pedigree with Sorsby fundus dystrophy (SFD). Methods Ten members in 3 generations of a pedigree with SFD were included in this study. Four patients were observed in the pedigree, including 2 females and 2 males. All 10 members underwent comprehensive ophthalmic examinations, including best-corrected visual acuity, intraocular pressure, slit-lamp biomicroscopy, indirect ophthalmoscopy, fundus color photography and spectral domain optical coherence tomography. Genomic DNA was extracted from peripheral venous blood which was collected from all the members. Relevant exons of ocular diseases were detected by the next generation sequencing method from the proband. The other members underwent Sanger verification. Results Among the four patients, fading eyesight was appeared at their 44, 46, 47 and 40 year-old respectively. The two male patients had bilateral morbidity, and the two female patients had monocular symptoms. DNA sequencing results showed that the proband, other 3 patients and 2 members from the Ⅲ generation had heterozygous mutation of TIMP3 gene in exon 5. The amino acid encoded by TIMP3 gene No.204 codon changed from serine to cysteine (TIMP3:NM_000362:Exon5:c.A610T/p.S204C). CoclusionsThe invasion time of all the patients in this pedigree is after their 40 year-old. Heterozygous mutation at c.610A>T (p.S204C) in TIMP3 gene is the causative gene of SFD in this pedigree.
ObjectiveTo analyze the pathogenic gene types and phenotypic characteristics of 6 albinism families. Methods A retrospective series of case studies. Six probands of albinism and 20 family members were recruited for this study, 5 probands with clinical manifestations of oculocutaneous albinism (OCA) and 1 proband of ocular albinism (OA). Genomic DNA was extracted from peripheral venous blood which was collected from 6 probands and 20 family members. Genetic variations were screened by whole-exome sequencing or Sanger sequencing and then analyzed the relationship between genotypes and phenotypes. Results Genetic sequencing identified 6 potential pathogenic variants in 4 probands, including 2 compound heterozygous mutations in the 2 genes [TYR (c.1037-7T>A, c.925_c.926insC), OCA2 (c.2359G>A, c.587T>C)] associated with OCA1 and OCA2, and 2 hemizygous mutations in the GPR143[GPR143 (c.11C>G), GPR143 (c.333G>A)] associated with OA1, respectively. In which, 5 were novel mutations and confirmed by Sanger sequencing. One case was accorded with OCA in clinical phenotype, but genetic diagnosis was OA1, the others were agreement between clinical diagnosis and genetic diagnosis. Conclusion There are 4 families with mutations in 6 families, representative of 3 type of albinism (OCA1, OCA2, OA1).