mTOR-mediated dedifferentiation of the retinal pigment epithelium initiates photoreceptor degeneration in mice
Chen Zhao, … , Matthew M. LaVail, Douglas Vollrath
Chen Zhao, … , Matthew M. LaVail, Douglas Vollrath
Published December 6, 2010
Citation Information: J Clin Invest. 2011;121(1):369-383. https://doi.org/10.1172/JCI44303.
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mTOR-mediated dedifferentiation of the retinal pigment epithelium initiates photoreceptor degeneration in mice

Abstract

Retinal pigment epithelial (RPE) cell dysfunction plays a central role in various retinal degenerative diseases, but knowledge is limited regarding the pathways responsible for adult RPE stress responses in vivo. RPE mitochondrial dysfunction has been implicated in the pathogenesis of several forms of retinal degeneration. Here we have shown that postnatal ablation of RPE mitochondrial oxidative phosphorylation in mice triggers gradual epithelium dedifferentiation, typified by reduction of RPE-characteristic proteins and cellular hypertrophy. The electrical response of the retina to light decreased and photoreceptors eventually degenerated. Abnormal RPE cell behavior was associated with increased glycolysis and activation of, and dependence upon, the hepatocyte growth factor/met proto-oncogene pathway. RPE dedifferentiation and hypertrophy arose through stimulation of the AKT/mammalian target of rapamycin (AKT/mTOR) pathway. Administration of an oxidant to wild-type mice also caused RPE dedifferentiation and mTOR activation. Importantly, treatment with the mTOR inhibitor rapamycin blunted key aspects of dedifferentiation and preserved photoreceptor function for both insults. These results reveal an in vivo response of the mature RPE to diverse stressors that prolongs RPE cell survival at the expense of epithelial attributes and photoreceptor function. Our findings provide a rationale for mTOR pathway inhibition as a therapeutic strategy for retinal degenerative diseases involving RPE stress.

Authors

Chen Zhao, Douglas Yasumura, Xiyan Li, Michael Matthes, Marcia Lloyd, Gregory Nielsen, Kelly Ahern, Michael Snyder, Dean Bok, Joshua L. Dunaief, Matthew M. LaVail, Douglas Vollrath

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Figure 7

Rapamycin treatment attenuates loss of RPE-characteristic markers, RPE cell growth, and photoreceptor dysfunction in RPEΔMT mice.

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Rapamycin treatment attenuates loss of RPE-characteristic markers, RPE c...
(A) An immunoblot shows reduced phosphorylation of P70SK6Thr389 and S6Ser235/236 in both control and RPEΔMT mice after rapamycin treatment. (B and C) Immunostaining for p-S6Ser235/236 (green) and cre (red) shows reduced reactivity of p-S6Ser235/236 in cre-expressing RPE cells in rapamycin-treated (C) versus vehicle-treated (B) RPEΔMT mice. Rapa, rapamycin. Original magnification, ×400. (D) Rapamycin treatment normalizes cellular protein content in RPEΔMT mice (R + rapa) at 16 weeks of age (triplicates). (E) The percentage of RPE with normal thickness (2.5–5 μm) is significantly increased in rapamycin-treated RPEΔMT mice at 22 weeks (n = 5), compared with that in vehicle-treated RPEΔMT mice (n = 3). (F) An immunoblot demonstrates the normalizing effect of rapamycin on the levels of RPE characteristic proteins and AIF in RPE cells from 16-week-old RPEΔMT mice. (G and H) RPE65 reactivity (red) is preserved in RPEΔMT mice by rapamycin treatment (H). Original magnification, ×200. (I) Quantification of proteins (triplicates) detected by immunoblot (e.g., F) shows rapamycin-induced increases in several RPE-characteristic markers in RPEΔMT RPE cells (normalized to vehicle-treated control mice). (J) Rapamycin treatment of RPEΔMT mice (n = 6) preserves cone density at 22 weeks, compared with that of vehicle-treated RPEΔMT mice (n = 3). (K) Electroretinography demonstrates significantly increased scotopic responses in 22-week-old RPEΔMT mice treated with rapamycin (n = 5), compared with those of vehicle-treated RPEΔMT mice (n = 4). Verticle bars clarify the 2 groups of values used for statistical comparison. Data represent mean ± SEM. *P < 0.05; §P < 0.01.