Abstract
MARCO is a class A scavenger receptor capable of binding both gram-negative and -positive bacteria. Using the surface plasmon resonance technique, we show here that a recombinant, soluble form of MARCO, sMARCO, binds the major gram-negative and -positive bacterial surface components, lipopolysaccharide and lipoteichoic acid. Yet, the interaction of these two polyanions with sMARCO is of much lower affinity than that of polyinosinic acid, a polyanionic inhibitor of bacterial binding to MARCO. To further elucidate the ligand-binding functions of MARCO, we performed a phage display screen with sMARCO. The screening resulted in the enrichment of only a handful of phage clones. Contrary to expectations, no polyanionic peptides, but only those with a predominantly hydrophobic nature, were enriched. One peptide, VRWGSFAAWL, was displayed on two-thirds of the phages recovered after four rounds of screening. The VRWGSFAAWL phage-sMARCO interaction had significantly slower dissociation kinetics than that between sMARCO and lipopolysaccharide or lipoteichoic acid. Further work with this phage, and the second most enriched phage, displaying the peptide RLNWAWWLSY, demonstrated that both peptides bind to the SRCR domain of MARCO, and that they probably bind to the same site. Data base searches suggested that the VRWGSFAAWL peptide represents complement component C4, but we could not convincingly confirm this suggestion. A study with chimeric scavenger receptors indicated that even minor sequence changes in the MARCO scavenger receptor cysteine-rich (SRCR) domain can have profound effects on the binding of the prototypic scavenger receptor ligand, acetylated low density lipoprotein. As shown by differential binding of glutathione S-transferase-VR-WGSFAAWL, these differences were very likely due to conformational changes. These findings led to experiments that demonstrated a crucial role of the SRCR domain for acetylated low density lipoprotein binding in MARCO. Thus, our results strengthen the notion that the SRCR domain is the major ligand-binding domain in MARCO. Furthermore, they suggest that the domain may contain multiple ligand-binding sites.
Highlights
We have recently succeeded in establishing a production system for the recombinant soluble MARCO, the extracellular part of this scavenger receptor
The curve falls below the baseline that might be due to stripping of soluble MARCO (sMARCO) from the NTA surface
Because it is known that sonication causes dispersion of large aggregates into smaller and more uniform micelles [26], micelle size appears to be a parameter that affects the interaction of LPS and lipoteichoic acid (LTA) with sMARCO in this system
Summary
We have recently succeeded in establishing a production system for the recombinant soluble MARCO (sMARCO), the extracellular part of this scavenger receptor. Purified lipopolysaccharide (LPS), a surface component of Gram-negative bacteria, was found to interact with the polyhistidine-tagged sMARCO conjugated to nickel-nitrilotriacetic acid beads, but not with beads containing a polyhistidine-tagged control protein. The costs of publication of this article were defrayed in part by the payment of page charges. This article must be hereby marked “advertisement” in accordance with 18 U.S.C. Section 1734 solely to indicate this fact. Macrophage Scavenger Receptor MARCO examined the interaction of LPS, lipoteichoic acid (LTA), a surface component of Gram-positive bacteria and a putative ligand of MARCO, as well as that of the polyribonucleotide poly(I) with the protein using surface plasmon resonance. We performed a phage display screen with immobilized sMARCO, as well as AcLDL binding studies with transfected cells, and both studies provide further support for the notion that the SRCR domain has a major role in the ligandbinding function of MARCO
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