A Bistable Mechanism Mediated by Integrins Controls Mechanotaxis of Leukocytes

Hornung, Alexander; Sbarrato, Thomas; Garcia-Seyda, Nicolas; Aoun, Laurène; Luo, Xuan; Biarnes-Pelicot, Martine; Théodoly, Olivier; Valignat, Marie-Pierre

doi:10.1016/j.bpj.2019.12.013

Cited by 22 publications

(46 citation statements)

References 56 publications

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“…In contrast, T cells migrating on VCAM-1 showed less contact with the stimulatory surface and seem to adhere mostly through the center and uropod of the cell (Fig 2E-F). This morphology is consistent with observations by others (14,15). Analysis of the movies revealed that while T cells migrating on ICAM-1 coated surfaces moved smoothly, showing sustained actin polymerization at the leading edge, T cells on VCAM-1 had periodic bursts of movement concomitant with brief actin flares at the front of the cell (Fig 2F-G, see Supplemental Movies 1 and 2).…”

Section: Resultssupporting

confidence: 90%

“…We and others have previously shown that T cells preferentially migrate against the direction of shear on ICAM-1 and with the direction of shear on VCAM-1 (11)(12)(13)(14)(15)(16)(17). To verify that our primary mouse T cells display this behavior, we activated T cells for two days and rested them for an additional three days in the presence of IL-2, a procedure that generates highly motile T cell blasts expressing both LFA-1 and VLA-4.…”

Section: Resultsmentioning

confidence: 99%

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LFA-1 signals to promote actin polymerization and upstream migration in T cells

Roy

Kim

Buffone

et al. 2020

Preprint

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Statement:Inflammatory responses require leukocyte migration along the vascular wall. We show that signaling from β2, but not β1, integrins induces cytoskeletal changes needed for upstream migration under shear flow. AbstractT cell entry into inflamed tissue requires firm adhesion, cell spreading, and migration along and through the endothelial wall. These events require the T cell integrins LFA-1 and VLA-4 and their endothelial ligands ICAM-1 and VCAM-1, respectively. T cells migrate against the direction of shear flow on ICAM-1 and with the direction of shear flow on VCAM-1, suggesting that these two ligands trigger distinct cellular responses. However, the contribution of specific signaling events downstream of LFA-1 and VLA-4 has not been explored. Using primary mouse T cells, we found that engagement of LFA-1, but not VLA-4, induces cell shape changes associated with rapid 2D migration. Moreover, LFA-1 ligation results in activation of the PI3K and ERK pathways, and phosphorylation of multiple kinases and adaptor proteins, while VLA-4 ligation triggers only a subset of these signaling events.Importantly, T cells lacking Crk adaptor proteins, key LFA-1 signaling intermediates, or the ubiquitin ligase cCbl, failed to migrate against the direction of shear flow on ICAM-1. These studies identify novel signaling differences downstream of LFA-1 and VLA-4 that drive T cell migratory behavior.Migration of leukocytes from the vasculature into peripheral tissue is central to their role in fighting pathogens, promoting tissue repair, and attacking solid tumors. This process, called transendothelial migration (TEM), is a key control point in the inflammatory response (1). TEM is a multi-step process that begins with selectin-dependent cell rolling on the vasculature, followed by chemokine-induced cell arrest. At this point, integrins expressed on the leukocyte interact with their endothelial ligands, resulting in shear resistant adhesion, cell spreading, and migration along the endothelium (1-3). Leukocyte migration along the vascular wall is a prerequisite for transmigration, and is thought to allow cells to search for ideal sites such as 3-way junctions to cross the endothelial layer (4-8). Intravital imaging of immune responses in vivo has revealed that leukocyte migration along the endothelial monolayer is not random and can be directed by shear flow forces (9, 10). Interestingly, leukocytes have been observed to preferentially migrate against the direction of shear flow (10), an unexpected result given the extra energy expenditure needed to oppose head-on shear forces. Although it is not clear why leukocytes display this phenotype, in vitro studies have shown that T cells crawling against the direction of shear on inflamed endothelia are more likely to undergo transmigration (11, 12), suggesting a link between these two mechanically demanding processes. T cell adhesion and migration on the vascular wall are dependent on integrin interactions with their endothelial ligands. The two major integrin ligands expressed o...

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Section: Resultssupporting

confidence: 90%

Section: Resultsmentioning

confidence: 99%

LFA-1 signals to promote actin polymerization and upstream migration in T cells

Roy

Kim

Buffone

et al. 2020

Preprint

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“…Figure 3 superimposes transmission images to localize cell body (grey), fluorescence microscopy images of the patterned stripes (red) and RICM images of the cell adhesion footprint (green). On homogeneously adherent substrates (Figure 3-A,D) , cells display adherent lamellipods and non-adherent rear on ICAM-1, and conversely adherent rear and detached lamellipods on VCAM-1, as previously described (28). On substrates with adherent and non-adherent stripes (Figure 3-B,E), adhesion (green) signal was bright on integrin-ligand stripes (bright red) and extinct on anti-adhesive stripes (light red), which confirms that cells crawl on adherent stripes and swim over non-adherent stripes.…”

Section: Lymphocytes Display Integrin-mediated Haptotaxis On Globallysupporting

confidence: 76%

“…Residual fluorescent intensity due to adsorbed antibodies was measured and then subtracted from the previous measurements. Previous study (28) showed a linear relation between the fluorescent intensity and the bulk concentration. We assume that the signal is given by the total number of molecules in the thin channel, then the volume concentration can be converted to a surface concentration for a channel of 41 µm in height.…”

Section: Fluorescent Quantification Of Adhesion Moleculesmentioning

confidence: 79%

“…However, calcium release experiments supported that no intracellular signaling was triggered by modulations of the adhesive stimulus (6). The sharp difference between haptotaxis mediated by integrins LFA-1 or VLA-4 may instead be linked to the strong differences in the dynamics of their spatial distribution and activation at the cell surface (28). Elucidation of these mechanisms would therefore benefit from precise characterization at single cell level of the strength of peripheral adhesion, and of the cartography of integrins localization and affinity state.…”

Section: Discussionmentioning

confidence: 91%

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Different integrins mediate haptotaxis of T lymphocytes towards either lower or higher adhesion zones

Aoun

Biarnes-Pelicot

et al. 2019

Preprint

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Guidance of cells by molecules anchored on a substrate, known as haptotaxis, is arguably crucial in development, immunology and cancer, however the exact cues and mechanisms driving cell orientation in vivo are hardly identified. Adhesive haptotaxis has been described in the case of mesenchymatous cells that develop strong pulling forces with their substrates and orient via a tug of war mechanism -a competition between cells' pulling edges. In the case of amoeboid cells that migrate with minimal interaction with their substrate, existence of adhesive haptotaxis remains unclear. Here, we studied the crawling of human T lymphocytes on substrates with spatially modulated adhesivity, and observed haptotaxis with surface concentrations of integrin ligands found on high endothelial veinules. Overexpression of ICAM-1 and VCAM-1 molecules observed in vivo at transmigration portals can therefore promote leukocyte recruitment. Mechanistically, we show that integrin-mediated haptotaxis of lymphocytes differ both from active chemotaxis, because no mechanotransduction was detected, and from the passive tug of war mechanism of mesenchymatous cells, because different integrins support opposite phenotypes. Cells favored more adherent zones with VLA-4 and, counterintuitively, less adherent zones with LFA-1. These results reveal that integrins control differential adhesive haptotaxis behaviors without mechanotransduction, and this smart capability may support unsuspected ways for cells path selection.

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Collective Behaviors of Active Matter Learning from Natural Taxes Across Scales

Pumera

et al. 2022

Advanced Materials

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Figure 1. Cognate collective taxis behaviors realized by organisms and robots across scales. A) Collective migration of particle robots and cells. Loosely coupled particles present collective phototaxis (left). Reproduced with permission. [11] Copyright 2019, Springer Nature. Cells perform collective migration in 3D environments (right). Reproduced with permission. [4] Copyright 2018, Springer Nature. B) Self-assembly of robots and bacteria. A swarm of 1024 kilobots form a star-like pattern (left). Reproduced with permission. [14] Copyright 2014, AAAS. A swarm of E. coli cells form a right-handed colony (right). Scale bar: 5 mm. Reproduced with permission. [15] Copyright 2011, The Proceedings of the National Academy of Sciences. C) Collective taxes of macroscopic organisms (e.g., fishes, birds, and ants) and robots. D) Collective taxes of microorganisms (e.g., sperms, [19] cells, and bacteria [20] ) and microrobots. [21] E) Connection constructed by ants and NPs. Weaver ants establish a bridge to connect leaves (left). Reproduced with permission. [7] Copyright 2002, Springer Nature. Magnetic NPs with gold functionalization connect two broken electrodes in a targeted position (right). Reproduced with permission. [16] Copyright 2019, American Chemical Society. F) Avoidance of predators. A bait ball of fishes is formed during the hunting of a sea lion (left). Reproduced with permission. [22] Copyright 2019, Science and Information Organization. The biomimetic predator-prey behavior in a binary system of active micromotors (right). Reproduced with permission. [17] Copyright 2019, American Chemical Society.

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A Bistable Mechanism Mediated by Integrins Controls Mechanotaxis of Leukocytes

Cited by 22 publications

References 56 publications

LFA-1 signals to promote actin polymerization and upstream migration in T cells

LFA-1 signals to promote actin polymerization and upstream migration in T cells

Different integrins mediate haptotaxis of T lymphocytes towards either lower or higher adhesion zones

Collective Behaviors of Active Matter Learning from Natural Taxes Across Scales

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