Clustering T-cell GM1 lipid rafts increases cellular resistance to shear on fibronectin through changes in integrin affinity and cytoskeletal dynamics

Jason S. Mitchell, Wells S. Brown, Darren G. Woodside, Peter Vanderslice, Bradley W. McIntyre

Research output: Contribution to journalArticlepeer-review

28 Scopus citations

Abstract

Lipid rafts are small laterally mobile microdomains that are highly enriched in lymphocyte signaling molecules. GM1 gangliosides are a common lipid raft component and have been shown to be important in many T-cell functions. The aggregation of specific GM1 lipid rafts can control many T-cell activation events, including their novel association with T-cell integrins. We found that clustering GM1 lipid rafts can regulate Β1 integrin function. This was apparent through increased resistance to shear flow-dependent detachment of T cells adherent to the α4Β1 and α5Β1 integrin ligand fibronectin (FN). Adhesion strengthening as a result of clustering GM1 enriched lipid rafts correlated with increased cellular rigidity and morphology through the localization of cortical F-actin, the resistance to shear-induced cell stretching, and an increase in the surface area and symmetry of the contact area between the cell surface and adhesive substrate. Furthermore, clustering GM1 lipid rafts could initiate integrin inside-out signaling mechanisms. This was seen through increased integrin-cytoskeleton associations and enhanced soluble binding of FN and VCAM-1, suggesting the induction of high-affinity integrin conformations. The activation of these adhesion-strengthening characteristics appears to be specific for the aggregation of GM1 lipid rafts as the aggregation of the heterogeneous raft-associated molecule CD59 failed to activate these functions. These findings indicate a novel mechanism to signal to Β1 integrins and to activate adhesion-strengthening processes.

Original languageEnglish (US)
Pages (from-to)324-336
Number of pages13
JournalImmunology and Cell Biology
Volume87
Issue number4
DOIs
StatePublished - May 2009
Externally publishedYes

Keywords

  • Adhesion molecules
  • Cell trafficking
  • Human
  • Inflammation
  • T cells

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