Nonretinoid chaperones improve rhodopsin homeostasis in a mouse model of retinitis pigmentosa
Abhishek Vats, Yibo Xi, Bing Feng, Owen D. Clinger, Anthony J. St. Leger, Xujie Liu, Archisha Ghosh, Chase D. Dermond, Kira L. Lathrop, Gregory P. Tochtrop, Serge Picaud, Yuanyuan Chen
Abhishek Vats, Yibo Xi, Bing Feng, Owen D. Clinger, Anthony J. St. Leger, Xujie Liu, Archisha Ghosh, Chase D. Dermond, Kira L. Lathrop, Gregory P. Tochtrop, Serge Picaud, Yuanyuan Chen
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Research Article Neuroscience Ophthalmology

Nonretinoid chaperones improve rhodopsin homeostasis in a mouse model of retinitis pigmentosa

Abstract

Rhodopsin-associated (RHO-associated) retinitis pigmentosa (RP) is a progressive retinal disease that currently has no cure. RHO protein misfolding leads to disturbed proteostasis and the death of rod photoreceptors, resulting in decreased vision. We previously identified nonretinoid chaperones of RHO, including YC-001 and F5257-0462, by small-molecule high-throughput screening. Here, we profile the chaperone activities of these molecules toward the cell-surface level of 27 RP-causing human RHO mutants in NIH3T3 cells. Furthermore, using retinal explant culture, we show that YC-001 improves retinal proteostasis by supporting RHO homeostasis in RhoP23H/+ mouse retinae, which results in thicker outer nuclear layers (ONL), indicating delayed photoreceptor degeneration. Interestingly, YC-001 ameliorated retinal immune responses and reduced the number of microglia/macrophages in the RhoP23H/+ retinal explants. Similarly, F5257-0462 also protects photoreceptors in RhoP23H/+ retinal explants. In vivo, intravitreal injection of YC-001 or F5257-0462 microparticles in PBS shows that F5257-0462 has a higher efficacy in preserving photoreceptor function and delaying photoreceptor death in RhoP23H/+ mice. Collectively, we provide proof of principle that nonretinoid chaperones are promising drug candidates in treating RHO-associated RP.

Authors

Abhishek Vats, Yibo Xi, Bing Feng, Owen D. Clinger, Anthony J. St. Leger, Xujie Liu, Archisha Ghosh, Chase D. Dermond, Kira L. Lathrop, Gregory P. Tochtrop, Serge Picaud, Yuanyuan Chen

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Figure 6

YC-001 improves RHO homeostasis and reduces autophagy flux in the RhoP23H/+ retinal explants.

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YC-001 improves RHO homeostasis and reduces autophagy flux in the RhoP23...
RhoP23H/+ and Rho+/+ mouse retinal explants were treated with DMSO, 40 μM YC-001, or 10 μM F5257-0462 for 9 DIV before immunoblots. β-Actin and GAPDH were loading controls. (A) Immunoblots of RHO from retinal lysates (15 μg total protein) that were untreated or were EndoH- or PNGaseF-treated. Black and white arrow heads, EndoH-resistant and cleaved RHO monomers, respectively. (B) Intensity ratio of the EndoH-resistant to EndoH-sensitive RHO monomers, measured from A. n = 5. (C and D) Immunoblots against poly-ubiquitin from retinal explants (60 μg total protein). Each number represents 1 retina per lane. (E) Intensity ratio of poly-ubiquitinated proteins (whole lane) to GAPDH, measured from C and D. n = 4–5. (FI) Retinal explant lysates (50 μg total protein) were i.p. with 1D4 anti-RHO antibody and IB against poly-ubiquitin (F and H) and RHO (G and I). Input (10 μg total protein), lysates before i.p. F and G are from RhoP23H/+ retinal explants, and H and I are from Rho+/+ retinal explants. (J) Intensity ratio of ubiquitinated RHO to total RHO measured from FI. The band near 100 KDa is the immunoglobulin heavy chain and was excluded from measurements. n = 4. (K) IB against autophagy flux markers LC3B and SQSTM/p62 from RhoP23H/+ retinal explants (60 μg total protein) cotreated without (–) or with (+) 100 nM bafilomycin-A1 (BAF). (L) Intensity ratio of LC3-II (16 kDa) to GAPDH, measured from K. (M) Plot of autophagic flux, calculated by the ratio of LC3-II (normalized by GAPDH) from retinal explants treated with BAF to that without BAF. (N) Intensity ratio of SQSTM/p62 to GAPDH, measured from immunoblots in K. n = 7. Data are shown as mean ± SD. *, **, P < 0.05 and 0.01, respectively, by the Kruskal-Wallis test.