The Elastin Receptor Complex Transduces Signals through the Catalytic Activity of Its Neu-1 Subunit

Laurent Duca,Charlotte Blanchevoye,Benoît Cantarelli,Christelle Ghoneim,Stéphane Dedieu,Frédéric Delacoux,William Hornebeck,Aleksander Hinek,Laurent Martiny,Laurent Debelle

doi:10.1074/jbc.m609505200

Laurent Duca, Charlotte Blanchevoye + Show 8 more

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https://doi.org/10.1074/jbc.m609505200

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Abstract

The binding of elastin peptides on the elastin receptor complex leads to the formation of intracellular signals but how this is achieved remains totally unknown. Using pharmacological inhibitors of the enzymatic activities of its subunits, we show here that the elastin peptide-driven ERK1/2 activation and subsequent pro-MMP-1 production, observed in skin fibroblasts when they are cultured in the presence of these peptides, rely on a membrane-bound sialidase activity. As lactose blocked this effect, the elastin receptor sialidase subunit, Neu-1, seemed to be involved. The use of a catalytically inactive form of Neu-1 and the small interfering RNA-mediated decrease of Neu-1 expression strongly support this view. Finally, we report that N-acetyl neuraminic acid can reproduce the effects of elastin peptides on both ERK1/2 activation and pro-MMP-1 production. Altogether, our results indicate that the enzymatic activity of the Neu-1 subunit of the elastin receptor complex is responsible for its signal transduction, presumably through sialic acid generation from undetermined substrates.

Highlights

Elastin is the extracellular matrix protein responsible for the elasticity of tissues
elastin-binding protein (EBP) is required for elastin peptide signaling and it has been suggested that tropoelastin recruit EBP to the cell surface where the PPCA and Neu-1 reside thereby leading to the completion of the elastin receptor complex
By analogy to what is observed in the lysosome, we supposed that elastin peptide-driven recruitment of EBP to the membrane-bound PPCA/Neu-1 complex could stimulate the enzymatic activities of these sub-units and contribute to signal processing by the elastin receptor

Summary

Introduction

Elastin is the extracellular matrix protein responsible for the elasticity of tissues. It was hypothesized that the 61 and 55 kDa membrane-bound subunits corresponded to the lysosomal companions of ␤-Gal, respectively neuraminidase-1 (Neu-1, EC 3.2.1.18) and cathepsin A/protective protein (PPCA, EC 3.4.16.1) [26]. This view was strongly supported by the fact that Neu-1 and PPCA are found at the plasma membrane of several cell types [27] and by the finding that ␤-Gal-related disorders are associated with elastic fibers abnormalities [28, 29]. It has been shown in vitro that the removal of ␤-Gal or PPCA hinders the formation of active neuraminidase, indicating that all three

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