Integrin-Kindlin3 requirements for microglial motility in vivo are distinct from those for macrophages
Julia Meller, … , Bruce D. Trapp, Tatiana V. Byzova
Julia Meller, … , Bruce D. Trapp, Tatiana V. Byzova
Published June 2, 2017
Citation Information: JCI Insight. 2017;2(11):e93002. https://doi.org/10.1172/jci.insight.93002.
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Research Article Cell biology Neuroscience

Integrin-Kindlin3 requirements for microglial motility in vivo are distinct from those for macrophages

Abstract

Microglia play a critical role in the development and homeostasis of the CNS. While mobilization of microglia is critical for a number of pathologies, understanding of the mechanisms of their migration in vivo is limited and often based on similarities to macrophages. Kindlin3 deficiency as well as Kindlin3 mutations of integrin-binding sites abolish both integrin inside-out and outside-in signaling in microglia, thereby resulting in severe deficiencies in cell adhesion, polarization, and migration in vitro, which are similar to the defects observed in macrophages. In contrast, while Kindlin3 mutations impaired macrophage mobilization in vivo, they had no effect either on the population of microglia in the CNS during development or on mobilization of microglia and subsequent microgliosis in a model of multiple sclerosis. At the same time, acute microglial response to laser-induced injury was impaired by the lack of Kindlin3-integrin interactions. Based on 2-photon imaging of microglia in the brain, Kindlin3 is required for elongation of microglial processes toward the injury site and formation of phagosomes in response to brain injury. Thus, while Kindlin3 deficiency in human subjects is not expected to diminish the presence of microglia within CNS, it might delay the recovery process after injury, thereby exacerbating its complications.

Authors

Julia Meller, Zhihong Chen, Tejasvi Dudiki, Rebecca M. Cull, Rakhilya Murtazina, Saswat K. Bal, Elzbieta Pluskota, Samantha Stefl, Edward F. Plow, Bruce D. Trapp, Tatiana V. Byzova

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Figure 9

Kindlin3 mutant knockin macrophages exhibit defective spreading and migration in vitro as well as impaired recruitment to inflammatory sites in vivo.

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Kindlin3 mutant knockin macrophages exhibit defective spreading and migr...
(A) 5 × 104 peritoneal macrophages were seeded per well, precoated with 10 μg/ml fibronectin for 24 hours, and stained with hematoxylin. The images show impaired spreading and lack of polarity in the Kindlin3 mutant knockin (K3KI) macrophages. Scale bar: 10 μm. (B) The number of polarized cells (cells with a ratio of the longest axis to shortest axis of 2:1 or greater) in both WT and K3KI mice was counted and is represented as the percentage of spread cells from n = 5 independent experiments, with 100 cells counted/group/experiment. (C) The average polarity of the K3KI cells shown as a measurement of their longest axis relative to WT cells (n = 5; mean ± SEM). (D) Spreading of Kindlin3-deficient macrophages was rescued by transfection with GFP-Kindlin3 vector but not with the GFP vector alone. Scale bar: 10 μm. (E) Quantification showing a significant increase in the area of spreading by Kindlin3-deficient macrophages transfected with GFP-Kindlin3 vector (n = 22 cells per group from 3 experiments). (F) In vitro cell migration assessed by the Oris cell migration assay. The quantification of cell migration represented as fold change in migration area, showing a significant reduction in migration by K3KI macrophages in comparison to WT macrophages (mean ± SEM, n = 3 independent experiments). (G) Peritoneal macrophages from WT and K3KI mice were collected after 72 hours of thioglycollate injection and counted with a hematocytometer. The graph shows a significant reduction in the number of cells accumulated in peritoneum of K3KI mice compared with WT mice (mean ± SEM, n = 6 per group). Box-and-whisker plots show median (line within box), upper and lower quartiles (bounds of box), and minimum and maximum values (bars). **P < 0.01, ***P < 0.001, 1-tailed Student’s t test.