Abstract

Mutations in PAX6 are involved in several developmental eye disorders. These disorders have considerable phenotypic variability, ranging from panocular forms of congenital aniridia and microphthalmia to isolated anomalies of the anterior or posterior segment. Here, we describe 3 families with variable inter-generational ocular expression of aniridia, iris coloboma, or microphthalmia, and an unusual transmission of PAX6 mutations from an unaffected or mildly affected parent; all of which raised suspicion of gonosomal mosaicism. We first identified two previously known nonsense mutations and one novel likely pathogenic missense variant in PAX6 in probands by means of targeted NGS. The subsequent segregation analysis by Sanger sequencing evidenced the presence of highly probable mosaic events in paternal blood samples. Mosaicism was further confirmed by droplet digital PCR analysis in several somatic tissues of mosaic fathers. Quantification of the mutant allele fraction in parental samples showed a marked deviation from 50%, with a range between 12 and 29% depending on cell type. Gonosomal mosaicsm was definitively confirmed in one of the families thanks to the availability of a sperm sample from the mosaic father. Thus, the recurrence risk in this family was estimated to be about one-third. This is the first report confirming parental PAX6 mosaicism as a cause of disease recurrence in aniridia and other related phenotypes. In addition, we demonstrated that post-zygotic mosaicism is a frequent and underestimated pathogenic mechanism in aniridia, explaining intra-familial phenotypic variability in many cases. Our findings may have substantial implications for genetic counseling in congenital aniridia. Thus, we also highlight the importance of comprehensive genetic screening of parents for new sporadic cases with aniridia or related developmental eye disease to more accurately assess recurrence risk. In conclusion, somatic and/or gonosomal mosaicism should be taken into consideration as a genetic factor to explain not only families with unaffected parents despite multiple affected children but also variable expressivity, apparent de novo cases, and even uncharacterized cases of aniridia and related developmental eye disorders, apparently lacking PAX6 mutations.

Highlights

  • PAX6 encodes a highly conserved homeodomain-containing transcription factor that plays pivotal roles in normal ocular and neural development (Cvekl and Callaerts, 2017)

  • We studied a cohort of 247 unrelated Spanish families with ocular developmental anomalies (ODAs) consisting of 78 with congenital aniridia, 33 with anterior segment dysgenesis and 136 with other PAX6-related phenotypes, i.e., ocular coloboma, microphthalmia, isolated foveal or optic nerve hypoplasia

  • We investigated the presence of parental mosaicism associated with disease-causing PAX6 variants in 3 families from a large cohort of Spanish patients with aniridia (n = 78) and other ODAs (n = 169)

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Summary

Introduction

PAX6 encodes a highly conserved homeodomain-containing transcription factor that plays pivotal roles in normal ocular and neural development (Cvekl and Callaerts, 2017). Phenotypic variability is commonly observed (Lee and Colby, 2013). A wide range of abnormalities in the cornea, anterior chamber, lens, and optic nerve have been reported conferring a higher risk in patients for secondary glaucoma, cataracts, and aniridia-associated keratopathy (AAK), which further worsen the visual outcome (Lee and Colby, 2013). Inter-familial and intra-familial variability on disease onset and severity of these secondary symptoms manifesting as congenital, childhood, or even adult forms are observed (Hingorani et al, 2012; Vasilyeva et al, 2017). Identifying and understanding the genetic mechanisms that affect the severity of the disease is essential to provide a more accurate diagnosis and better clinical management of PAX6-associated disorders

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