Structure of the human Duffy antigen receptor

Author:

Saha Shirsha,Khanppnavar Basavraj,Maharana Jagannath,Kim Heeryung,Carino Carlo Marion C.,Daly Carole,Houston Shane,Kumari Poonam,Yadav Prem N.,Plouffe Bianca,Inoue Asuka,Chung Ka Young,Banerjee Ramanuj,Korkhov Volodymyr M.,Shukla Arun K.

Abstract

AbstractThe Duffy antigen receptor, also known as FY glycoprotein or CD234, is a seven transmembrane protein expressed primarily at the surface of red blood cells, which displays promiscuous binding to multiple chemokines. Not only does it serve as the basis of the Duffy blood group system but it also acts as the primary attachment site for malarial parasitePlasmodium vivaxon erythrocytes and as one of the nucleating receptors for the pore forming toxins secreted byStaphylococcus aureus. Despite a predicted 7TM architecture and efficient binding to a spectrum of chemokines, it fails to exhibit canonical second messenger response such as calcium release, likely due to a lack of G protein coupling. Unlike prototypical GPCRs and β-arrestin-biased atypical chemokine receptors, the Duffy antigen receptor also appears to lack β-arrestin binding, making it an enigmatic 7TM chemokine receptor. In order to decipher the molecular mechanism of this intriguing functional divergence exhibited by the Duffy antigen receptor, we have determined its cryo-EM structure in complex with a C-C type chemokine, CCL7. The structure reveals a relatively superficial binding mode of CCL7, with the N-terminus of the receptor serving as the key interaction interface, and a partially formed orthosteric binding pocket lacking the second site for chemokine recognition compared to prototypical chemokine receptors. The structural framework allows us to employ HDX-MS approach to uncover ligand-induced structural changes in the receptor and draw important insights into the promiscuous nature of chemokine binding. Interestingly, we also observe a dramatic shortening of TM5 and 6 on the intracellular side, compared to prototypical GPCRs, which precludes the coupling of canonical signal-transducers namely G proteins, GRKs and β-arrestins, as demonstrated through extensive cellular assays. Taken together, our study uncovers a previously unknown structural mechanism that imparts unique functional divergence on the 7TM fold encoded in the Duffy antigen receptor while maintaining its scavenging function and should facilitate the designing of novel therapeutics targeting this receptor.

Publisher

Cold Spring Harbor Laboratory

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