Distinct timing of neutrophil spreading and stiffening during phagocytosis - Archive ouverte HAL
Article Dans Une Revue Biophysical Journal Année : 2022

Distinct timing of neutrophil spreading and stiffening during phagocytosis

Résumé

Phagocytic cells form the first line of defense in an organism, engulfing microbial pathogens. Phagocytosis involves cell mechanical changes that are not yet well understood. Understanding these mechanical modifications promises to shed light on the immune processes that trigger pathological complications. Previous studies showed that phagocytes undergo a sequence of spreading events around their target followed by an increase in cell tension. Seemingly in contradiction, other studies observed an increase in cell tension concomitant with membrane expansion. Even though phagocytes are viscoelastic, few studies have quantified viscous changes during phagocytosis. It is also unclear whether cell lines behave mechanically similarly to primary neutrophils. We addressed the question of simultaneous versus sequential spreading and mechanical changes during phagocytosis by using immunoglobulin-G-coated 8-and 20-mm-diameter beads as targets. We used a micropipettebased single-cell rheometer to monitor viscoelastic properties during phagocytosis by both neutrophil-like PLB cells and primary human neutrophils. We show that the faster expansion of PLB cells on larger beads is a geometrical effect reflecting a constant advancing speed of the phagocytic cup. Cells become stiffer on 20-than on 8-mm beads, and the relative timing of spreading and stiffening of PLB cells depends on target size: on larger beads, stiffening starts before maximal spreading area is reached but ends after reaching maximal area. On smaller beads, the stiffness begins to increase after cells have engulfed the bead. Similar to PLB cells, primary cells become stiffer on larger beads but start spreading and stiffen faster, and the stiffening begins before the end of spreading on both bead sizes. Our results show that mechanical changes in phagocytes are not a direct consequence of cell spreading and that models of phagocytosis should be amended to account for causes of cell stiffening other than membrane expansion.
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Dates et versions

hal-04243740 , version 1 (16-10-2023)

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Alexandra Zak, Sophie Dupre-Crochet, Elodie Hudik, Avin Babataheri, Abdul I Barakat, et al.. Distinct timing of neutrophil spreading and stiffening during phagocytosis. Biophysical Journal, 2022, 121 (8), pp.1381-1394. ⟨10.1016/j.bpj.2022.03.021⟩. ⟨hal-04243740⟩
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