Inhibition of ceramide accumulation in AdipoR1–/– mice increases photoreceptor survival and improves vision
Dominik Lewandowski, … , Marcin Tabaka, Krzysztof Palczewski
Dominik Lewandowski, … , Marcin Tabaka, Krzysztof Palczewski
Published January 11, 2022
Citation Information: JCI Insight. 2022;7(4):e156301. https://doi.org/10.1172/jci.insight.156301.
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Research Article Ophthalmology

Inhibition of ceramide accumulation in AdipoR1–/– mice increases photoreceptor survival and improves vision

Abstract

Adiponectin receptor 1 (ADIPOR1) is a lipid and glucose metabolism regulator that possesses intrinsic ceramidase activity. Mutations of the ADIPOR1 gene have been associated with nonsyndromic and syndromic retinitis pigmentosa. Here, we show that the absence of AdipoR1 in mice leads to progressive photoreceptor degeneration, significant reduction of electroretinogram amplitudes, decreased retinoid content in the retina, and reduced cone opsin expression. Single-cell RNA-Seq results indicate that ADIPOR1 encoded the most abundantly expressed ceramidase in mice and one of the 2 most highly expressed ceramidases in the human retina, next to acid ceramidase ASAH1. We discovered an accumulation of ceramides in the AdipoR1–/– retina, likely due to insufficient ceramidase activity for healthy retina function, resulting in photoreceptor death. Combined treatment with desipramine/L-cycloserine (DC) lowered ceramide levels and exerted a protective effect on photoreceptors in AdipoR1–/– mice. Moreover, we observed improvement in cone-mediated retinal function in the DC-treated animals. Lastly, we found that prolonged DC treatment corrected the electrical responses of the primary visual cortex to visual stimuli, approaching near-normal levels for some parameters. These results highlight the importance of ADIPOR1 ceramidase in the retina and show that pharmacological inhibition of ceramide generation can provide a therapeutic strategy for ADIPOR1-related retinopathy.

Authors

Dominik Lewandowski, Andrzej T. Foik, Roman Smidak, Elliot H. Choi, Jianye Zhang, Thanh Hoang, Aleksander Tworak, Susie Suh, Henri Leinonen, Zhiqian Dong, Antonio F.M. Pinto, Emily Tom, Jennings Luu, Joan Lee, Xiuli Ma, Erhard Bieberich, Seth Blackshaw, Alan Saghatelian, David C. Lyon, Dorota Skowronska-Krawczyk, Marcin Tabaka, Krzysztof Palczewski

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Figure 3

Expression of ADIPOR1 protein and cone opsins in 1-month-old AdipoR1–/– and WT mouse retinas.

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Expression of ADIPOR1 protein and cone opsins in 1-month-old AdipoR1–/– ...
(A) Representative S-opsin and M-opsin staining of cones on retinal flatmounts from AdipoR1+/+ and AdipoR1–/– mice. Images were collected from the ventral/nasal quadrant at 500–750 μm from the ONH. Scale bar: 50 μm. (B) IHC staining of a mouse retinal cross section with ADIPOR1 Ab (red) indicated the strongest ADIPOR1 expression at the interface between the RPE apical microvilli and the distal part of the photoreceptor OS. Cones were stained with PNA-fluorescein (green), and cell nuclei were stained with DAPI (blue). Inset on the lower-left panel of B shows rhodopsin staining with 1d4 Ab to confirm the integrity of the photoreceptor-RPE interface on the retinal cross sections used in the experiment. Scale bars: 20 µm. (C and D) Western blots of mouse neural retinas or RPE cells from 1-month-old AdipoR1–/– and WT mice, stained with ADIPOR1 Ab. Each lane represents the sample from an individual mouse, for which an equal amount of total protein was loaded. Nonspecific bands are labeled with #. (D) α-Tubulin Ab was used as a loading control (n = 3 for WT, n = 2 for KO). (E) Densitometric quantification of Western blots in D, normalized to α-tubulin. Statistical significance was determined by a 2-tailed Student’s t test; **P < 0.01.