A rare missense PAX6 mutation causes atypical aniridia in a three-generation Chinese family.

AIM: To investigate the molecular diagnosis of a three-generation Chinese family affected with aniridia, and further to identify clinically a PAX6 missense mutation in members with atypical aniridia. METHODS: Eleven family members with and without atypical aniridia were recruited. All family members underwent comprehensive ophthalmic examinations. A combination of whole exome sequencing (WES) and direct Sanger sequencing were performed to uncover the causative mutation. RESULTS: Among the 11 family members, 8 were clinically diagnosed with congenital aniridia (atypical aniridia phenotype). A rare heterozygous mutation c.622C>T (p.Arg208Trp) in exon 8 of PAX6 was identified in all affected family members but not in the unaffected members or in healthy control subjects. CONCLUSION: A rare missense mutation in the PAX6 gene is found in members of a three-generation Chinese family with congenital atypical aniridia. This result contributes to an increase in the phenotypic spectrum caused by PAX6 missense heterozygous variants and provides useful information for the clinical diagnosis of atypical aniridia, which may also contribute to genetic counselling and family planning.

Mutational screening of SLC39A5, LEPREL1 and LRPAP1 in a cohort of 187 high myopia patients.

High myopia (HM) is a leading cause of mid-way blindness with a high heritability in East Asia. Although only a few disease genes have been reported, a small proportion of patients could be identified with genetic predispositions. In order to expand the mutation spectrum of the causative genes in Chinese adult population, we investigated three genes, SLC39A5, LEPREL1 and LRPAP1, in a cohort of 187 independent Chinese patients with high myopia. Sanger sequencing was used to find possible pathogenic mutations, which were further screened in normal controls. After a pipeline of database and predictive assessments filtering, we, thereby, identified totally seven heterozygous mutations in the three genes. Among them, three novel missense mutations, c.860C > T, p.Pro287Leu and c.956G > C, p.Arg319Thr in SLC39A5, c.1982A > G, p.Lys661Arg in LEPREL1, were identified as potentially causative mutations. Additionally, the two heterozygous mutations (c.1582G > A, p.Ala528Thr; c.1982A > G, p.Lys661Arg) in one patient in LEPREL1 gene were reported in this study. Our findings will not only augment the mutation spectrum of these three genes, but also provide insights of the contribution of these genes to adult high myopia in Chinese. However, further studies are still needed to address the pathogenicity of each of the mutations reported in this study.

Trio-based exome sequencing arrests de novo mutations in early-onset high myopia.

The etiology of the highly myopic condition has been unclear for decades. We investigated the genetic contributions to early-onset high myopia (EOHM), which is defined as having a refraction of less than or equal to -6 diopters before the age of 6, when children are less likely to be exposed to high educational pressures. Trios (two nonmyopic parents and one child) were examined to uncover pathogenic mutations using whole-exome sequencing. We identified parent-transmitted biallelic mutations or de novo mutations in as-yet-unknown or reported genes in 16 probands. Interestingly, an increased rate of de novo mutations was identified in the EOHM patients. Among the newly identified candidate genes, a BSG mutation was identified in one EOHM proband. Expanded screening of 1,040 patients found an additional four mutations in the same gene. Then, we generated Bsg mutant mice to further elucidate the functional impact of this gene and observed typical myopic phenotypes, including an elongated axial length. Using a trio-based exonic screening study in EOHM, we deciphered a prominent role for de novo mutations in EOHM patients without myopic parents. The discovery of a disease gene, BSG, provides insights into myopic development and its etiology, which expands our current understanding of high myopia and might be useful for future treatment and prevention.

Toll-Like Receptor 3 Activation Initiates Photoreceptor Cell Death In Vivo and In Vitro.

Purpose: Accumulating evidence has demonstrated that excessive immunoreaction plays a prominent role in the pathogenesis of dry AMD. Toll-like receptor 3 (TLR3) can be activated by double-stranded (ds)RNA in retinal pigment epithelia and trigger an innate immunity-mediated inflammatory response. However, its role in photoreceptor cells, the effectors of AMD geographic atrophy, remains unclear. Methods: The expression of TLR3 was examined in mouse retina and in a murine photoreceptor cell line (661W). Retinal structure, function, and cell death in the polyinosine-polycytidylic acid (poly I:C)-treated retina were investigated by optical coherence tomography, electroretinography (ERG), and immunostaining. Cytokine and chemokine expression as well as cell death were measured in poly I:C-exposed 661W cells and explant retinas. By comparing the RNA sequencing (seq) data of 661W cells and murine retina, we comprehensively investigated the contribution of photoreceptor in poly I:C-induced retinal immune response. Results: Toll-like receptor 3 was highly expressed in the inner segment of the photoreceptor and in 661W cells. We found poly I:C induced significant retinal structural damages and impairment of ERG responses. Focal ERG demonstrated that injected and parainjected zones were functionally damaged by poly I:C. In addition, poly I:C acted on cultured photoreceptor cells directly and evoked an inflammatory response that exhibited similarities with the immune response in mouse retina. Moreover, TLR3 activation initiated cell death in murine photoreceptor cells in vivo and in vitro. Additionally, poly I:C initiated immune response in explant retinas. Conclusions: We deciphered the TLR3-mediated inflammatory response in photoreceptor cells. Our findings suggested TLR3-mediated inflammatory response in photoreceptor cells may play an important role in dry AMD, offering new insights of potential treatments targeting photoreceptor immunity.