RIPK3 suppresses photoreceptor degeneration in a Stargardt disease mouse model

Autosomal recessive Stargardt disease type 1 (STGD1) is the most prevalent inherited juvenile macular degeneration, ultimately leading to irreversible blindness through photoreceptor cell loss, yet the underlying cell death mechanisms remain poorly defined. Receptor-interacting protein kinase 3 (RIPK3) is a well-established mediator of necroptosis and, under certain circumstances, apoptosis downstream of TNF family ligands, and it was found to be progressively upregulated in the retina of a STGD1 abca4 ^−/− rdh8 ^−/− (DKO) mouse model coinciding with the onset and progression of photoreceptor degeneration. Despite elevated RIPK3 expression, necroptosis was not detectable in this model, as evidenced by the absence of phosphorylated MLKL and unaltered photoreceptor degeneration in abca4 ^-/- rdh8 ^-/- mlkl ^-/- mice. Intriguingly, genetic ablation of Ripk3 exacerbated photoreceptor loss in DKO mice in both chronic (age-dependent) and acute (light-induced) retinal degeneration paradigms. This detrimental effect was partially ameliorated by pan-caspase inhibition in the acute degeneration model, indicating caspase-dependent apoptosis as the primary executioner. Mechanistically, we demonstrated that RIPK3 suppressed extrinsic apoptosis by attenuating caspase-8 activation downstream of TNF family ligands. Collectively, our findings reveal a non-canonical, protective role of RIPK3 in photoreceptors, as a brake on apoptotic signaling rather than a necroptotic executor, in the context of STGD1. These findings redefine the role of RIPK3 in retinal degeneration and emphasize the contextual plasticity of cell death regulators in neurodegenerative diseases.