Transcriptional downregulation of rhodopsin is associated with desensitization of rods to light-induced damage in a murine model of retinitis pigmentosa
Shimpei Takita, Hemavathy Harikrishnan, Masaru Miyagi, Yoshikazu Imanishi

TL;DR
A study finds that reduced rhodopsin levels in a mouse model of retinitis pigmentosa may protect against light-induced damage.
Contribution
The study reveals a novel transcript-level dominant-negative effect of mutant rhodopsin that reduces toxicity and protects rod cells.
Findings
Rhodopsin mRNA is significantly downregulated before rod degeneration in RhoQ344X/+ mice.
Downregulation of mutant rhodopsin mRNA reduces light-induced toxicity in these mice.
The transcript-level dominant effect is also observed in the RhoP23H/+ mouse model.
Abstract
Class I rhodopsin mutations are known for some of the most severe forms of vision impairments in dominantly inherited rhodopsin retinitis pigmentosa. They disrupt the VxPx transport signal, which is required for the proper localization of rhodopsin to the outer segments. While various studies have focused on the light-dependent toxicity of mutant rhodopsin, it remains unclear whether and how these mutations exert dominant-negative effects. Using the class I RhoQ344X rhodopsin knock-in mouse model, we characterized the expression of rhodopsin and other genes by RNA sequencing and qPCR. Those studies indicated that rhodopsin is the most prominently downregulated photoreceptor-specific gene in RhoQ344X/+ mice. Rhodopsin mRNA is downregulated significantly prior to the onset of rod degeneration, whereas mRNA downregulation of other phototransduction components, transducinα, and Pde6α,…
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Taxonomy
TopicsRetinal Development and Disorders · Photoreceptor and optogenetics research · Neuroscience and Neuropharmacology Research
