Abstract
The atypical chemokine receptor, ACKR2 is a pivotal regulator of chemokine-driven inflammatory responses and works by binding, internalizing, and degrading inflammatory CC-chemokines. ACKR2 displays promiscuity of ligand binding and is capable of interacting with up to 14 different inflammatory CC-chemokines. Despite its prominent biological role, little is known about the structure/function relationship within ACKR2, which regulates ligand binding. Here we demonstrate that a conserved tyrosine motif at the N terminus of ACKR2 is essential for ligand binding, internalization, and scavenging. In addition we demonstrate that sulfation of this motif contributes to ligand internalization. Furthermore, a peptide derived from this region is capable of binding inflammatory chemokines and inhibits their interaction with their cognate signaling receptors. Importantly, the peptide is only active in the sulfated form, further confirming the importance of the sulfated tyrosines for function. Finally, we demonstrate that the bacterial protease, staphopain A, can cleave the N terminus of ACKR2 and suppress its ligand internalization activity. Overall, these results shed new light on the nature of the structural motifs in ACKR2 that are responsible for ligand binding. The study also highlights ACKR2-derived N-terminal peptides as being of potential therapeutic significance.
Highlights
ACKR2 is an atypical chemokine receptor that is biologically distinct from conventional chemokine receptors
Because we have previously shown sulfation of ACKR2 [44], we tested the importance of this tyrosine motif for ligand binding by human ACKR2 using conventional mutagenesis
We demonstrate that a conserved tyrosine motif in the N terminus of ACKR2 is essential for ligand internalization and scavenging and that within this motif, multiple tyrosines are required for efficient ligand uptake
Summary
ACKR2 is an atypical chemokine receptor that is biologically distinct from conventional chemokine receptors. Results: An N-terminal sulfated tyrosine motif is essential for ligand binding by ACKR2. Conclusion: The structure/function basis for ligand binding by ACKR2 is similar to that of conventional chemokine receptors. We demonstrate that a conserved tyrosine motif at the N terminus of ACKR2 is essential for ligand binding, internalization, and scavenging. A peptide derived from this region is capable of binding inflammatory chemokines and inhibits their interaction with their cognate signaling receptors. We demonstrate that the bacterial protease, staphopain A, can cleave the N terminus of ACKR2 and suppress its ligand internalization activity. Overall, these results shed new light on the nature of the structural motifs in ACKR2 that are responsible for ligand binding. The study highlights ACKR2-derived N-terminal peptides as being of potential therapeutic significance
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