Litcius/Paper detail

F-actin flashes on phagosomes mechanically deform contents for efficient digestion in macrophages

Mathieu B. Poirier, Cara Fiorino, Thiviya K. Rajasekar, Rene E. Harrison

2020Journal of Cell Science26 citationsDOI

Abstract

The mechanism and role of transient F-actin recruitment, or F-actin 'flashes', on phagosomes remains enigmatic. Here we provide a comprehensive characterization of F-actin flashing dynamics on phagosomes, including receptor and signaling involvement. F-actin flashes predominate during the integrin-driven complement receptor (CR)-mediated phagocytosis. F-actin flashes begin shortly after internalization and persist on phagosomes for approximately 3 minutes before disassembling and reassembling several times within the first hour. Strikingly, the appearance of F-actin flashes on phagosomes coincides with morphological deformation, lysis and occasional fission of internalized red blood cells. The cadence of flashes depends on particle stiffness, and the F-actin networks on phagosomes are enriched in mechanosensitive components including focal adhesion proteins, RhoA and actomyosin. Inhibiting Arp2/3 and myosin IIA activity significantly reduces the frequency at which phagosome cargo becomes deformed during transient F-actin accumulation. At later time points, post-F-actin flashing, enhanced degradation of phagosome contents is observed, compared with non-flashing phagosomes. Taken together, these data suggest that actomyosin-driven phagosome contractions serve to disrupt malleable particles physically, a process akin to mastication, to enhance later enzymatic digestion.

Topics & Concepts

PhagosomeBiologyActinCell biologyMyosinFilopodiaCytoskeletonPhagocytosisBiophysicsBiochemistryCellCellular Mechanics and InteractionsCell Adhesion Molecules ResearchCellular transport and secretion