Yi Tong

The novel G10680A mutation is associated with complete penetrance of the LHON/T14484C family

We report the clinical and genetic characterization of a Chinese Lebers hereditary optic neuropathy (LHON) family with complete penetrance and high percentage of recovery. Sequence analysis of the complete mitochondrial DNA revealed the presence of heteroplasmic ND6/T14484C mutation and 27 other variants, belonging to the East-Asian haplogroup B4bd. Of those variants, a novel homoplasmic G10680A mutation substituted a threonine for a highly conserved alanine at ND4L amino acid 71, which was not found in unaffected family members and 100 normal controls. It indicated that G10680A may play a synergistic role with the primary mutation T14484C, leading to the complete penetrance of LHON in the presenting family. In addition, the other modifier factors including nuclear background, mitochondrial haplotypes and other environmental factors should account for the phenotypic variability of visual impairment in this family.

Confirmation of the mitochondrial ND1 gene mutation G3635A as a primary LHON mutation

We report the clinical and genetic characterization of two Chinese LHON families who do not carry the primary LHON-mutations. Mitochondrial genome sequence analysis revealed the presence of a homoplasmic ND1 G3635A mutation in both families. In Family LHON-001, 31 other variants belonging to the East Asian haplogroup R11a were identified and in Family LHON-019, 37 other variants belonging to the East Asian haplogroup D4g were determined. The ND1 G3635A mutation changes the conversed serine110 residue to asparagine. This mutation has been previously described in a single Russian LHON family and has been suggested to contribute to increased LHON expressivity. In addition, a mutation in cytochrome c oxidase subunit II at C7868T (COII/L95F) may act in synergy with G3635A, increasing LHON expressivity in Family LHON-001, which had a higher level of LHON penetrance than Family LHON-019. In summary, the G3635A mutation is confirmed as a rare primary pathogenic mutation for LHON.

A novel mutation impairing the tertiary structure and stability of γC‐crystallin (CRYGC) leads to cataract formation in humans and zebrafish lens

Congenital cataract is one of the leading causes of human blindness. In this study, we identified a novel, heterozygous c.385G

A Novel Frameshift Mutation in FRMD7 Causing X-Linked Idiopathic Congenital Nystagmus

Idiopathic congenital nystagmus (ICN) is a common oculomotor disorder characterized by bilateral involuntary, periodic, and predominantly ocular oscillations. X-linked ICN (XLICN) with incomplete penetrance in females is the most common inheritance form, and FERM domain containing (FRMD7) mutation is the major reason for XLICN families. To date, 39 FRMD7 mutations have been identified, and 50% of the XLICN pedigrees have yielded FRMD7 mutations in the Western population. In this study, we identified a novel frameshift mutation (c.1274-1275delTG) in the FRMD7 gene in six XLICN pedigrees. Incorporated with data reported from other two Chinese groups, approximately 47% XLICN pedigrees were caused by the FRMD7 mutation in China. Therefore, this study showed that mutation analysis of the FRMD7 gene had diagnostic value not only in the Western population but also in one of the biggest Eastern populations, Chinese XLICN families. In addition, the results indicated the type of FRMD7 mutation associated with the penetrance of female carriers of XLICN.

Novel A14841G mutation is associated with high penetrance of LHON/C4171A family

We report the clinical and genetic characterization of a Chinese LHON family carrying an ND1/C4171A mutation. This family has high penetrance of visual impairment and extremely low frequency of vision recovery, which is in marked contrast to previously reported results for Korean LHON families with the same mutation. Sequence analysis of the complete mtDNA in the partially defined East Asian haplogroup N9a1 revealed the presence of 29 other variants. A novel heteroplasmic A14841G mutation, one of the variants with a serine substituted for a highly conserved asparagine at amino acid 32 of Cytochrome b (Cytb), may play a synergistic role with the C4171A mutation, leading to significantly different clinical manifestations of LHON among these families. The study further confirmed that C4171A was a rare primary LHON mutation, and the mtDNA background could also contribute to the clinical manifestation of the LHON/C4171A mutation.

Novel mutations in HSF4 cause congenital cataracts in Chinese families

BackgroundCongenital cataract, a kind of cataract presenting at birth or during early childhood, is a leading cause of childhood blindness. To date, more than 30 genes on different chromosomes are known to cause this disorder. This study aimed to identify the HSF4 mutations in a cohort from Chinese families affected with congenital cataracts.MethodsForty-two unrelated non-syndromic congenital cataract families and 112 ethnically matched controls from southeast China were recruited from the southeast of China. We employed Sanger sequencing method to discover the variants. To confirm the novel mutations, STR haplotypes were constructed to check the co-segregation with congenital cataract. The pathogenic potential of the novel mutations were assessed using bioinformatics tools including SIFT, Polyphen2, and Human Splicing Finder. The pathogenicity of all the mutations was evaluated by the guidelines of American College of Medical Genetics and InterVar software.ResultsNo previously reported HSF4 mutations were found in all the congenital cataract families. Five novel HSF4 mutations including c.187xa0Tu2009>u2009C (p.Phe63Leu), c.218Gu2009>u2009T (p.Arg73Leu), c.233Au2009>u2009G (p.Tyr78Cys), IVS5 c.233-1Gu2009>u2009A and c.314Gu2009>u2009C (p.Ser105Thr) were identified in five unrelated families with congenital cataracts, respectively. These mutations co-segregated with all affected individuals in each family were not observed in the unaffected family members or in 112 unrelated controls. All five mutations were categorized to be the disease “pathogenic” according to ACMG guidelines and using InterVar software. Mutations in the HSF4 were responsible for 11.90% Chinese families with congenital cataracts in our cohort.ConclusionsIn the study, we identified five novel HSF4 mutations in Chinese families with congenital cataracts. Our results expand the spectrum of HSF4 mutations causing congenital cataracts, which may be helpful for the molecular diagnosis of congenital cataracts in the era of precision medicine.