Integrin αIIbβ3 Activation in Chinese Hamster Ovary Cells and Platelets Increases Clustering Rather than Affinity

Thomas A Bunch

doi:10.1074/jbc.m109.057349

Abstract

Integrin alphaIIbbeta3 affinity regulation by talin binding to the cytoplasmic tail of beta3 is a generally accepted model for explaining activation of this integrin in Chinese hamster ovary cells and human platelets. Most of the evidence for this model comes from the use of multivalent ligands. This raises the possibility that the activation being measured is that of increased clustering of the integrin rather than affinity. Using a newly developed assay that probes integrins on the surface of cells with only monovalent ligands prior to fixation, I do not find increases in affinity of alphaIIbbeta3 integrins by talin head fragments in Chinese hamster ovary cells, nor do I observe affinity increases in human platelets stimulated with thrombin. Binding to a multivalent ligand does increase in both of these cases. This assay does report affinity increases induced by either Mn(2+), a cytoplasmic domain mutant (D723R) in the cytoplasmic domain of beta3, or preincubation with a peptide ligand. These results reconcile the previously observed differences between talin effects on integrin activation in Drosophila and vertebrate systems and suggest new models for talin regulation of integrin activity in human platelets.

Highlights

I find that when identical binding assays are conducted for ␣IIb␤3 integrins, as were used for the Drosophila PS2 integrins, talin has no effect on the affinity of ␣IIb␤3 for monovalent ligand
Using a modified assay that I call the monovalent fixation assay, which does test integrin affinity for monovalent ligands [19], we were unable to detect any effect of talin on Drosophila PS2 integrin affinity for ligand [11]
Each individual multivalent ligand can make multiple interactions with multiple integrins when these receptors are in close proximity, and this results in increased binding

Summary

Introduction

Particle (cluster) areas and intensities are given as the mean Ϯ S.E. Monovalent Fixation Assay Reports on ␣IIb␤3 Affinity— Talin head domain or its F2-F3 subdomain has been demonstrated to increase PAC-1 binding to ␣IIb␤3 expressed in CHO cells [5, 22]. PAC-1 IgM bound to CHO cells expressing ␣IIb␤3 and GFP-Talin F2-F3 was clustered in the typical affinity assay.

Results

Conclusion