Journal
JOURNAL OF NEUROSCIENCE
Volume 43, Issue 15, Pages 2653-2664Publisher
SOC NEUROSCIENCE
DOI: 10.1523/JNEUROSCI.1726-22.2023
Keywords
actin dynamics; BAR proteins; live-cell imaging; phagocytosis; RPE; trogocytosis
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Research has found that the retinal pigment epithelium (RPE) plays a crucial role in regulating the health of photoreceptor cells by ingesting and degrading their outer segments (OS). The study also showed that actin dynamics and specific BAR proteins (FBP17 and AMPH1-BAR) are involved in shaping the RPE membrane and surrounding the OS tip. Furthermore, actin dynamics are required for regulating the size and time course of the ingestion process. This discovery is important for understanding the mechanisms underlying retinal degeneration and blindness.
The photoreceptor outer segment (OS) is the phototransductive organelle in the vertebrate retina. OS tips are regularly ingested and degraded by the adjacent retinal pigment epithelium (RPE), offsetting the addition of new disk membrane at the base of the OS. This catabolic role of the RPE is essential for photoreceptor health, with defects in ingestion or degradation underlying different forms of retinal degeneration and blindness. Although proteins required for OS tip ingestion have been identified, spatiotemporal analysis of the ingestion process in live RPE cells is lacking; hence, the literature reflects no common understanding of the cellular mechanisms that affect ingestion. We imaged live RPE cells from mice (both sexes) to elucidate the ingestion events in real time. Our imaging revealed roles for f-actin dynamics and specific dynamic localizations of two BAR (Bin-Amphiphysin-Rvs) proteins, FBP17 and AMPH1-BAR, in shaping the RPE apical membrane as it surrounds the OS tip. Completion of ingestion was observed to occur by scission of the OS tip from the remainder of the OS, with a transient concentration of f-actin forming around the site of imminent scission. Actin dynamics were also required for regulating the size of the ingested OS tip, and the time course of the overall ingestion process. The size of the ingested tip is consistent with the term phagocytosis. However, phagocytosis usually refers to engulfment of an entire particle or cell, whereas our observations of OS tip scission indicate a process that is more specifically described as trogocytosis, in which one cell nibbles another cell.
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