ON than OFF pathway disruption leads to greater deficits in visual function and retinal dopamine signaling.

Moe H Aung, Kelleigh Hogan, Reece E Mazade, Han Na Park, Curran S Sidhu, P Michael Iuvone, Machelle T Pardue

Experimental eye research 2022 Jul

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The visual system uses ON and OFF pathways to signal luminance increments and decrements. Increasing evidence suggests that ON and OFF pathways have different signaling properties and serve specialized visual functions. However, it is still unclear the contribution of ON and OFF pathways to visual behavior. Therefore, we examined the effects on optomotor response and the retinal dopamine system in nob mice with ON pathway dysfunction and Vsx1-/- mice with partial OFF pathway dysfunction. Spatial frequency and contrast sensitivity thresholds were determined, and values were compared to age-matched wild-type controls. Retinas were collected immediately after visual testing to measure levels of dopamine and its metabolite, DOPAC. At 4 weeks of age, we found that nob mice had significantly reduced spatial frequency (19%) and contrast sensitivity (60%) thresholds compared to wild-type mice. Vsx1-/- mice also exhibited reductions in optomotor responses (3% in spatial frequency; 18% in contrast sensitivity) at 4 weeks, although these changes were significantly smaller than those found in nob mice. Furthermore, nob mice had significantly lower DOPAC levels (53%) and dopamine turnover (41%) compared to controls while Vsx1-/- mice displayed a transient increase in DOPAC levels at 4 weeks of age (55%). Our results show that dysfunction of ON pathways leads to reductions in contrast sensitivity, spatial frequency threshold, and retinal dopamine turnover whereas partial loss of the OFF pathway has minimal effect. We conclude that ON pathways play a critical role in visual reflexes and retinal dopamine signaling, highlighting a potential association for future investigations. Published by Elsevier Ltd.

Citation

Moe H Aung, Kelleigh Hogan, Reece E Mazade, Han Na Park, Curran S Sidhu, P Michael Iuvone, Machelle T Pardue. ON than OFF pathway disruption leads to greater deficits in visual function and retinal dopamine signaling. Experimental eye research. 2022 Jul;220:109091