Canonical and noncanonical g-protein signaling helps coordinate actin dynamics to promote macrophage phagocytosis of zymosan

NN Huang, S Becker, C Boularan… - … and cellular biology, 2014 - Taylor & Francis
NN Huang, S Becker, C Boularan, O Kamenyeva, A Vural, IY Hwang, CS Shi, JH Kehrl
Molecular and cellular biology, 2014Taylor & Francis
Both chemotaxis and phagocytosis depend upon actin-driven cell protrusions and cell
membrane remodeling. While chemoattractant receptors rely upon canonical G-protein
signaling to activate downstream effectors, whether such signaling pathways affect
phagocytosis is contentious. Here, we report that Gαi nucleotide exchange and signaling
helps macrophages coordinate the recognition, capture, and engulfment of zymosan
bioparticles. We show that zymosan exposure recruits F-actin, Gαi proteins, and Elmo1 to …
Both chemotaxis and phagocytosis depend upon actin-driven cell protrusions and cell membrane remodeling. While chemoattractant receptors rely upon canonical G-protein signaling to activate downstream effectors, whether such signaling pathways affect phagocytosis is contentious. Here, we report that Gαi nucleotide exchange and signaling helps macrophages coordinate the recognition, capture, and engulfment of zymosan bioparticles. We show that zymosan exposure recruits F-actin, Gαi proteins, and Elmo1 to phagocytic cups and early phagosomes. Zymosan triggered an increase in intracellular Ca2+ that was partially sensitive to Gαi nucleotide exchange inhibition and expression of GTP-bound Gαi recruited Elmo1 to the plasma membrane. Reducing GDP-Gαi nucleotide exchange, decreasing Gαi expression, pharmacologically interrupting Gβγ signaling, or reducing Elmo1 expression all impaired phagocytosis, while favoring the duration that Gαi remained GTP bound promoted it. Our studies demonstrate that targeting heterotrimeric G-protein signaling offers opportunities to enhance or retard macrophage engulfment of phagocytic targets such as zymosan.
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