Abstract
Different forms of photoreceptor degeneration cause blindness. Retinal degeneration-3 protein (RD3) deficiency in photoreceptors leads to recessive congenital blindness. We proposed that aberrant activation of the retinal membrane guanylyl cyclase (RetGC) by its calcium-sensor proteins (guanylyl cyclase–activating protein [GCAP]) causes this retinal degeneration and that RD3 protects photoreceptors by preventing such activation. We here present in vivo evidence that RD3 protects photoreceptors by suppressing activation of both RetGC1 and RetGC2 isozymes. We further suggested that insufficient inhibition of RetGC by RD3 could contribute to some dominant forms of retinal degeneration. The R838S substitution in RetGC1 that causes autosomal-dominant cone–rod dystrophy 6, not only impedes deceleration of RetGC1 activity by Ca2+GCAPs but also elevates this isozyme's resistance to inhibition by RD3. We found that RD3 prolongs the survival of photoreceptors in transgenic mice harboring human R838S RetGC1 (R838S+). Overexpression of GFP-tagged human RD3 did not improve the calcium sensitivity of cGMP production in R838S+ retinas but slowed the progression of retinal blindness and photoreceptor degeneration. Fluorescence of the GFP-tagged RD3 in the retina only partially overlapped with immunofluorescence of RetGC1 or GCAP1, indicating that RD3 separates from the enzyme before the RetGC1:GCAP1 complex is formed in the photoreceptor outer segment. Most importantly, our in vivo results indicate that, in addition to the abnormal Ca2+ sensitivity of R838S RetGC1 in the outer segment, the mutated RetGC1 becomes resistant to inhibition by RD3 in a different cellular compartment(s) and suggest that RD3 overexpression could be utilized to reduce the severity of cone–rod dystrophy 6 pathology.
Highlights
Cyclic GMP mediates rod and cone responses to light by regulating cGMP-gated channels in the photoreceptor outer segment, which open in the dark but close when illumination activates rapid cGMP hydrolysis by the rhodopsin–transducin–phosphodiesterase-6 cascade
The Rd3−/− degeneration in RetGC1−/− or RetGC2−/− background would be caused by Retinal degeneration-3 protein (RD3) deficiency rather than the retinal membrane guanylyl cyclase (RetGC) isozymes deficiency, making it possible to assess any potential role of RetGC activity in Rd3−/− degeneration
The most interesting alternative possibility that has been suggested is that GCAP2 causes photoreceptor death by activating in the inner segment an apoptotic pathway(s) in a way that is unrelated to RetGC regulation [27]
Summary
Cyclic GMP mediates rod and cone responses to light by regulating cGMP-gated channels in the photoreceptor outer segment, which open in the dark but close when illumination activates rapid cGMP hydrolysis by the rhodopsin–transducin–phosphodiesterase-6 cascade (reviewed in Refs. [1,2,3,4]). Several GUCY2D CORD6-linked mutations [13, 14], including R838S, have been biochemically characterized in vitro [13,14,15,16] and in vivo [17, 18], demonstrating that in transgenic mice the mutated RetGC1 requires higher free Ca2+ concentrations to decelerate the cyclase activity and abnormally elevates cGMP production and Ca2+ influx in the dark, leading to progressive photoreceptor degeneration.
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