Abstract
Meesmann epithelial corneal dystrophy (MECD) is a rare autosomal dominant disorder caused by dominant-negative mutations within the KRT3 or KRT12 genes, which encode the cytoskeletal protein keratins K3 and K12, respectively. To investigate the pathomechanism of this disease, we generated and phenotypically characterized a novel knock-in humanized mouse model carrying the severe, MECD-associated, K12-Leu132Pro mutation. Although no overt changes in corneal opacity were detected by slit-lamp examination, the corneas of homozygous mutant mice exhibited histological and ultrastructural epithelial cell fragility phenotypes. An altered keratin expression profile was observed in the cornea of mutant mice, confirmed by western blot, RNA-seq and quantitative real-time polymerase chain reaction. Mass spectrometry (MS) and immunohistochemistry demonstrated a similarly altered keratin profile in corneal tissue from a K12-Leu132Pro MECD patient. The K12-Leu132Pro mutation results in cytoplasmic keratin aggregates. RNA-seq analysis revealed increased chaperone gene expression, and apoptotic unfolded protein response (UPR) markers, CHOP and Caspase 12, were also increased in the MECD mice. Corneal epithelial cell apoptosis was increased 17-fold in the mutant cornea, compared with the wild-type (P < 0.001). This elevation of UPR marker expression was also observed in the human MECD cornea. This is the first reporting of a mouse model for MECD that recapitulates the human disease and is a valuable resource in understanding the pathomechanism of the disease. Although the most severe phenotype is observed in the homozygous mice, this model will still provide a test-bed for therapies not only for corneal dystrophies but also for other keratinopathies caused by similar mutations.
Highlights
Corneal dystrophies are a group of blinding heritable conditions, with a prevalence of approximately one in 2000 [1]
Germline transmission of the targeted allele was confirmed by polymerase chain reaction (PCR) (Supplementary Material, Fig. S4), and recombinant mutant mice were bred with transgenic C57BL/6 mice universally expressing Flp-deleter recombinase to excise the neomycin resistance gene (NeoR) and puromycin resistance gene (PuroR) cassettes (Fig. 1) [22]
We investigated the induction of Caspase 12, as this protein has previously been shown to be activated during unfolded protein response (UPR)-induced apoptosis in a corneal dystrophy mouse model [15]
Summary
Corneal dystrophies are a group of blinding heritable conditions, with a prevalence of approximately one in 2000 [1] They are noninflammatory conditions restricted to the cornea and usually result in a loss of corneal transparency [2]. MECD is caused by heterozygous mutations in either the KRT3 or KRT12 genes, which encode corneal-specific keratins K3 and K12, respectively [5,6]. These form K3–K12 heterodimers that polymerize to form the intermediate cytoskeletal filaments that provide structure and stability to corneal epithelial cells [7,8]. The mechanism by which K12 mutations cause corneal microcyst formation and cytolysis remains poorly understood
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