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  • Title: Retinal ganglion cell death and optic nerve degeneration by genetic ablation in adult mice.
    Author: Cho JH, Mu X, Wang SW, Klein WH.
    Journal: Exp Eye Res; 2009 Mar; 88(3):542-52. PubMed ID: 19109949.
    Abstract:
    Despite the magnitude of the problem, no effective treatments exist to prevent retinal ganglion cell (RGC) death and optic nerve degeneration from occurring in diseases affecting the human eye. Animal models currently available for developing treatment strategies suffer from cumbersome procedures required to induce RGC death or rely on mutations that induce defects in developing retinas rather than in mature retinas of adults. Our objective was to develop a robust genetically engineered adult mouse model for RGC loss and optic nerve degeneration based on genetic ablation. To achieve this, we took advantage of Pou4f2 (Brn3b), a gene activated immediately as RGCs begin to differentiate and expressed throughout life. We generated adult mice whose genomes harbored a conditional Pou4f2 allele containing a floxed-lacZ-stop-diphtheria toxin A cassette and a CAGG-Cre-ER transgene. In this bigenic model, Cre recombinase is fused to a modified estrogen nuclear receptor in which the estrogen-binding domain binds preferentially to the estrogen agonist tamoxifen rather than to endogenous estradiol. Upon binding to the estrogen-binding domain, tamoxifen derepresses Cre recombinase, leading to the efficient genomic deletion of the floxed-lacZ-stop DNA sequence and expression of diphtheria toxin A. Tamoxifen administered to adult mice at different ages by intraperitoneal injection led to rapid RGC loss, reactive gliosis, progressive degradation of the optic nerve over a period of several months, and visual impairment. Perhaps more reflective of human disease, partial loss of RGCs was achieved by modulating the tamoxifen treatment. Especially relevant for RGC death and optic nerve degeneration in human retinal pathologies, RGC-ablated retinas maintained their structural integrity, and other retinal neurons and their connections in the inner and outer plexiform layers appeared unaffected by RGC ablation. These events are hallmarks of progressive optic nerve degeneration observed in human retinal pathologies and demonstrate the validity of this model for use in developing stem cell therapies for replacing dead RGCs with healthy ones.
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