Accumulation of autophagosomes in aging human photoreceptor cell synapses.

Autophagy is common in the aging retinal pigment epithelium (RPE). A dysfunctional autophagy in aged RPE is implicated in the pathogenesis of age-related macular degeneration. Aging human retina accompanies degenerative changes in photoreceptor mitochondria. It is not known how the damaged mitochondria are handled by photoreceptor cells with aging. This study examined donor human retinas (age: 56-94 years; N = 12) by transmission electron microscopy to find mitochondrial dynamics and status of autophagy in macular photoreceptor cells. Observations were compared between the relatively lower age (56-78 years) and aged retinas (80-94 years). Mitochondrial fusion was predominant in photoreceptor inner segments (ellipsoids), but rarely seen in the synaptic terminals. Also, fusion became widespread with progressive aging in ellipsoids (12% and 21% between rods and cones at tenth decade, respectively). More importantly, it was found that the photoreceptor synaptic mitochondria altered significantly with aging (swelling and loss of cristae), compared to those in ellipsoids that became dark and condensed. The damaged synaptic mitochondria were sequestered inside autophagosomes, whose frequency was higher in aged photoreceptors, being 34% in cone and 24% in rod terminals, at tenth decade. However, autolysosomes/residual bodies were rare, and thus the aged photoreceptor synaptic terminals harboured many autophagosomes, the possible reasons for which are discussed. Such age-related altered mitochondrial population and defective autophagy in synaptic terminals may influence photoreceptor survival in late aging.