Regulation of Integrin Affinity States through an NP XY Motif in the β Subunit Cytoplasmic Domain

Timothy E O'Toole,Jari Ylanne,Brian M Culley

doi:10.1074/jbc.270.15.8553

Timothy E O'Toole, Jari Ylanne + Show 1 more

Open Access

https://doi.org/10.1074/jbc.270.15.8553

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Abstract

The ligand binding affinities of the integrins are regulated through their cytoplasmic domains. To identify specific residues that are involved in this process, we have generated mutants in the beta 1 and beta 3 tails and coexpressed them in Chinese hamster ovary cells with constitutively active alpha subunits. These alpha subunits are chimera of extra-cellular and transmembrane alpha IIb joined to the cytoplasmic domains of alpha 5, alpha 6A, or alpha 6B and confer an energy-dependent high affinity state when expressed in Chinese hamster ovary cells. The affinity state of these transfectants was determined by analyzing the binding of PAC1, an antibody that specifically recognizes the activated form of the reporter group, extracellular alpha IIb beta 3. We have identified point mutants in several areas of the beta tails, which result in a reduced ability to bind ligand. Complete abolition of PAC1 binding was obtained with mutants in an NPXY motif found in many integrin beta subunits and implicated in the internalization of other cell surface receptors. Similar effects on PAC1 binding were observed whether coexpression was with alpha chimera containing alpha 5, alpha 6A, or alpha 6B cytoplasmic sequences. These studies identify a novel role for the NPXY motif in the regulation of integrin binding affinity.

Highlights

From the Department of Vascular Biology, Scripps Research Institute, La Jolla, California 92037 and the §Department of Biochemistry, University ofHelsinki, 00014 Helsinki, Finland
These a subunits are chimera of extra· cellular and transmembrane allb joined to the cytoplas· mic domains of a 5, a6A, or a6B and confer an energy-de· pendent high affinity state when expressed in Chinese hamster ovary cells
The affinity state of these transfec· tants was determined by analyzing the binding of PACl, an antibody that recognizes the activated form of the reporter group, extracellualar allbf33 We have identified point mutants in several areas of the f3 tails, which result in a reduced ability to bind ligand

Summary

Introduction

To identify spe· citic residues that are involved in this process, we have generated mutants in the /31 and f3a tails and coexpressed them in Chinese hamster ovary cells with constitutively active a subunits. These a subunits are chimera of extra· cellular and transmembrane allb joined to the cytoplas· mic domains of a 5 , a6A, or a6B and confer an energy-de· pendent high affinity state when expressed in Chinese hamster ovary cells. Similar effects on PACl binding were observed whether coexpression was with a chimera containing a5, ~ or Oi!B cytoplasmic sequences These studies identify a novel role for the NPXY motif in the regulation of inte· grin binding affinity.

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Conclusion