Production and Limbal Lineage Commitment of Aniridia Patient-Derived Induced Pluripotent Stem Cells

Abstract

Abstract Congenital aniridia is caused by heterozygous mutations on the PAX6 gene leading to reduced amount of PAX6 protein (haploinsufficiency), abnormal eye development, and aniridia-associated keratopathy (AAK). This progressive corneal opacification resembles late-onset limbal stem cell (LSC) deficiency, leading to disrupted corneal epithelial renewal. The factors leading to AAK are not known and defects in native LSC differentiation and/or features leading to ocular surface dysfunction like inflammation and loss of innervation could contribute to development of AAK. Here, we produced induced pluripotent stem cells (hiPSC) from 3 AAK patients and examined whether PAX6 haploinsufficiency affects LSC lineage commitment. During LSC differentiation, characterization of the AAK lines showed lowered PAX6 expression as compared to wild type (WT) controls and expression peak of PAX6 during early phase of differentiation was detected only in the WT hiPSC lines. Whether it reflects developmental regulation remains to be studied further. Nevertheless, the AAK-hiPSCs successfully differentiated toward LSC lineage, in line with the presence of LSCs in young patients before cell loss later in life. In addition, patient-specific LSCs showed similar wound healing capacity as WT cells. However, extensive batch-related variation in the LSC marker expression and wound healing efficacy was detected without clear correlation to AAK. As development and maintenance of corneal epithelium involves an interplay between LSCs and their environment, the AAK-hiPSCs generated here can be further used to study the crosstalk between LSCs and limbal niche including, eg, corneal immune cells, stroma cells, and neurons.