Abstract
Leukemia inhibitory factor (LIF), an interleukin-6 family neurocytokine, is up-regulated in response to different types of retinal stress and has neuroprotective activity through activation of the gp130 receptor/STAT3 pathway. We observed that LIF induces rapid, robust, and sustained activation of STAT3 in both the retina and retinal pigmented epithelium (RPE). Here, we tested whether LIF-induced STAT3 activation within the RPE can down-regulate RPE65, the central enzyme in the visual cycle that provides the 11-cis-retinal chromophore to photoreceptors in vivo. We generated conditional knock-out mice to specifically delete STAT3 or gp130 in RPE, retina, or both RPE and retina. After intravitreal injection of LIF, we analyzed the expression levels of visual cycle genes and proteins, isomerase activity of RPE65, levels of rhodopsin protein, and the rates of dark adaptation and rhodopsin regeneration. We found that RPE65 protein levels and isomerase activity were reduced and recovery of bleachable rhodopsin was delayed in LIF-injected eyes. In mice with functional gp130/STAT3 signaling in the retina, rhodopsin protein was also reduced by LIF. However, the LIF-induced down-regulation of RPE65 required a functional gp130/STAT3 cascade intrinsic to RPE. Our data demonstrate that a single cytokine, LIF, can simultaneously and independently affect both RPE and photoreceptors through the same signaling cascade to reduce the generation and utilization of 11-cis-retinal.
Highlights
Neurocytokines (LIF and ciliary neurotrophic factor (CNTF)) mediate photoreceptor protection and down-regulation of phototransduction
leukemia inhibitory factor (LIF) Activates STAT3 and Decreases the Levels of retinal pigment epithelium 65 (RPE65) in retinal pigmented epithelium (RPE)—We previously showed that LIF, a member of the IL-6 family of cytokines, can protect photoreceptors under stress through gp130/STAT3 activation within photoreceptor cells [26, 35]
We hypothesized that LIF signaling in RPE cells may activate a parallel mechanism to down-regulate the visual cycle in RPE cells as part of a general protective response to reduce the accumulation of potentially toxic retinoid products
Summary
Neurocytokines (LIF and CNTF) mediate photoreceptor protection and down-regulation of phototransduction. Excessive synthesis of 11-cis-RAL by the RPE is detrimental to photoreceptor health and survival [12, 13] In response to both light and mechanical stresses, visual cycle genes are down-regulated via a signal(s) originating from the retina, suggesting that this downregulation is a general damage response of the RPE [14]. We and others have shown that IL-6 family cytokines, including leukemia inhibitory factor (LIF) and ciliary neurotrophic factor (CNTF), are endogenously induced in response to light and inherited mutation-triggered stresses (18 –25) These up-regulated cytokines protect the retina from degeneration through activation of the gp130 receptor and con-. Studies have shown that high levels of CNTF result in decreased mRNA and protein expression of phototransduction genes [28, 29], reducing the utilization of 11-cis-RAL in photoreceptor cells. The direct neuroprotective effects of LIF and CNTF coupled with the ability to downregulate RPE65 activity suggest that gp130 agonists could provide a potent therapeutic strategy for retinal diseases that result from the toxic accumulation of retinoid byproducts
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