PLoS ONE (Jan 2014)

Mst1 directs Myosin IIa partitioning of low and higher affinity integrins during T cell migration.

  • Xiaolu Xu,
  • Emily R Jaeger,
  • Xinxin Wang,
  • Erica Lagler-Ferrez,
  • Serge Batalov,
  • Nancy L Mathis,
  • Tim Wiltshire,
  • John R Walker,
  • Michael P Cooke,
  • Karsten Sauer,
  • Yina H Huang

DOI
https://doi.org/10.1371/journal.pone.0105561
Journal volume & issue
Vol. 9, no. 8
p. e105561

Abstract

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Chemokines promote T cell migration by transmitting signals that induce T cell polarization and integrin activation and adhesion. Mst1 kinase is a key signal mediator required for both of these processes; however, its molecular mechanism remains unclear. Here, we present a mouse model in which Mst1 function is disrupted by a hypomorphic mutation. Microscopic analysis of Mst1-deficient CD4 T cells revealed a necessary role for Mst1 in controlling the localization and activity of Myosin IIa, a molecular motor that moves along actin filaments. Using affinity specific LFA-1 antibodies, we identified a requirement for Myosin IIa-dependent contraction in the precise spatial distribution of low and higher affinity LFA-1 on the membrane of migrating T cells. Mst1 deficiency or Myosin inhibition resulted in multipolar cells, difficulties in uropod detachment and mis-localization of low affinity LFA-1. Thus, Mst1 regulates Myosin IIa dynamics to organize high and low affinity LFA-1 to the anterior and posterior membrane during T cell migration.