Analysis of Small Latent Transforming Growth Factor-β Complex Formation and Dissociation by Surface Plasmon Resonance: ABSENCE OF DIRECT INTERACTION WITH THROMBOSPONDINS

Sabine Bailly,Celine Brand,Edmond M Chambaz,Jean-Jacques Feige

doi:10.1074/jbc.272.26.16329

Sabine Bailly, Celine Brand + Show 2 more

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https://doi.org/10.1074/jbc.272.26.16329

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Abstract

Transforming growth factor-beta (TGFbeta) is a pluripotent regulator of cell growth and differentiation. The growth factor is expressed as a latent complex that must be converted to an active form before interacting with its ubiquitous high affinity receptors. This conversion involves the release of the mature TGFbeta through disruption of the noncovalent interactions with its propeptide or latency associated protein (LAP). Complex formation or dissociation between LAP and TGFbeta plays a very important role in TGFbeta biological activity at different steps. To further characterize the kinetic parameters of this interaction, we have employed surface plasmon resonance biosensor methodology. Using this technique, we observed real time association of LAP with mature TGFbeta1. The complex formation showed an equilibrium Kd around 3-7 nM. Furthermore, we observed dissociation of the complex in the presence of extreme pH, chaotropic agents, or plasmin, confirming their effects on TGFbeta activation. The same approach was used to examine whether latent TGFbeta1 could interact with thrombospondins, previously described as activators of latent TGFbeta. Using this method, we could not detect any direct interaction of thrombospondins with either LAP alone, TGFbeta1 alone, or the small latent TGFbeta1 complex. This suggests that activation of latent TGFbeta1 complex by thrombospondins is through an indirect mechanism.

Highlights

Transforming growth factor-␤ (TGF␤) is a pluripotent regulator of cell growth and differentiation
The growth factor is expressed as a latent complex that must be converted to an active form before interacting with its ubiquitous high affinity receptors
Transforming growth factor-␤1 (TGF␤1) exerts its effects via binding to high affinity receptors that are expressed on virtually all cell types, and as TGF␤1 production is ubiquitous, there must be strict regulation of its activity

Summary

Introduction

Transforming growth factor-␤ (TGF␤) is a pluripotent regulator of cell growth and differentiation. The growth factor is expressed as a latent complex that must be converted to an active form before interacting with its ubiquitous high affinity receptors This conversion involves the release of the mature TGF␤ through disruption of the noncovalent interactions with its propeptide or latency associated protein (LAP). The association phase can be visualized in real time as the ligandcontaining solution flows over the surface, and the subsequent dissociation is displayed after the flow switches back to buffer containing no ligand [17] Using this technique, we were able to show direct interaction between LAP and mature TGF␤1, that is, formation of the small latent complex with TGF␤1 immobilized and LAP injected as analyte or vice versa

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