In common dry age-related macular degeneration (dAMD) and orphan juvenile macular degeneration (JMD) (e.g., Stargardt) cellular and biochemical debris accumulates within and beneath the retinal pigment epithelium (RPE). These diseases reflect naturally occurring circadian shedding of rod and cone photoreceptor (PR) outer segment tips, and phagocytosis and lysosomal digestion by RPE cells. In the human parafovea, where dAMD and JMD starts, a single RPE cell underlies and supports about 30-35 rods and fewer cones. RPE enzymatic limitations cause age-related lipofuscin to accumulate in phagolysosomes. Lipofuscin has protein, lipid and carbohydrate components and contributes to intra- and sub-RPE deposits (flecks, drusen) seen in JMD/dAMD. Lipofuscin has a brilliant autofluorescence and photoreactivity under blue light excitation due to the dominant presence of toxic bis-retinoids (TBR) such as pyridinium salts (A2E) and retinaldehyde dimers (RetDi). These derive from covalent reaction, in PR outer segments, of two molecules of retinaldehydes, resulting from visual pigment bleaching and regeneration, with lipids and proteins. TBR pigments accumulate in RPE cells normally with age (> 30 years) integrated over many years. Any stressors (e.g., macular degenerative processes) that promote accelerated TBRs buildup will exert toxic apoptotic effects on RPE cells, loss of support of overlying PRs and cell death (e.g., dAMD/JMD). TBRs are validated molecular targets for therapy. Daily turnover of massive amounts of rod visual pigment in the parafovea is a huge burden for the RPE (most metabolically active cells in human body) and contributes to accumulation of intracellular and subretinal debris; 50% reduction of normal human rod rhodopsin (RHO) has no degenerative effect and people still see stars. 90% of rod photoreceptor mass is RHO. RHO is a validatable target. Our hypothesis is that dAMD/JMD can be treated by reducing RHO and related time-dependent accumulation of debris and TBRs in PR and RPE cells. The rationale or strategy is that steady-state reductions in RHO and related TBRs would slow age- related toxic buildup of byproducts, decrease metabolic burden, and maintain viable RPE cells longer into life. This would preserve overlying rods and cones, maintain central cone vision, and slow or halt emergence of geographic atrophy. The long term objective is to develop a safe and effective gene therapy for dAMD/JMD. The objective of the proposed experiments is to use hammerhead ribozymes (hhRz) or RNA interference (shRNA) as genetic tools to knockdown (KD) RHO expression to relieve daily outer retinal stresses (TBRs, metabolic stresses). This novel strategy is tested in multiple mouse models of dAMD/JMD (ABCR-/-//RDH8-/-; ELOVL4mut, SOD2ko), which all have outer retinal PR/RPE degenerations. The expected outcome is that RHO reduction will rescue outer retinal degenerations, with preserved photopic sensitivity (cones use a Müller cell retinoid visual cycle...