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Gclc deletion in surface-ectoderm tissues induces microphthalmia

Authors: 
Thompson B, Chen Y, Philippe J, Anderson D, Golla JP, Davidson E, Apostolopoulos N, Schey K, Katsanis N, Orlicky DJ, Thompson D, Vasiliou V
Citation: 
bioRxiv. 2019:[preprint]. doi:10.1101/700591
Abstract: 
Glutamate cysteine ligase catalytic subunit (Gclc) is the catalytic subunit for the glutamate-cysteine ligase (Gcl) enzyme. Gcl catalyzes the rate limiting step in glutathione (GSH) synthesis. Gclc is highly expressed in the developing eye. To define the regulatory role of Gclc in eye development, we developed a novel, Le-Cre transgene-driven, Gclc knockout mouse model. Gclcf/f/Le-CreTg/− mice present with deformation of the retina, cornea, iris, and lens, consistent with a microphthalmia phenotype. Controlling for the microphthalmia phenotype of Gclcwt/wt/Le-CreTg/− mice revealed that Gclcf/f/Le-CreTg/− mice have a more severe microphthalmia phenotype. Thus, the loss of Gclc expression exacerbates the microphthalmia phenotype in Le-Cre mice. Gclcf/f/Le-CreTg/− eyes present with reduced retinal and lens epithelium proliferation and increased lens cell death. Imaging mass spectrometry of ocular tissues revealed changes in the intensity and distribution of several lipid species and proteins in the retina and corneas of Gclcf/f/Le-CreTg/− eyes. Lastly, using splice-blocking morpholinos and CRISPR/Cas9, we created two gclc knockdown zebrafish models, both of which display a microphthalmia phenotype. Combined, the mouse and zebrafish results indicate that, in chordates, Gclc has a conserved role in regulating eye development. In summary, these novel animal models are useful tools for elucidating the mechanisms involved in microphthalmia development.
Epub: 
Not Epub
Organism or Cell Type: 
zebrafish
Delivery Method: 
microinjection