Structures ofArabidopsis thalianaMDL Proteins and Synergistic Effects with the Cytokine MIF on Human Receptors

Abstract

AbstractVertebrates have developed effective immune mechanisms to fight microbial attacks, relying on a sophisticated network of innate and adaptive responses, a circulatory system, and numerous orchestrating soluble mediators such as cytokines. Mammalian macrophage migration inhibitory factor (MIF) and its paralog D-dopachrome tautomerase (D-DT/MIF-2) are multifunctional inflammatory cytokines with chemokine-like properties that modulate immunity. Plants possess orthologous MIF/D-DT-like (MDL) proteins, whose function is largely unexplored. Driven by the previous discovery of cross-kingdom mimicry of plant (Arabidopsis thaliana) MDL proteins and human MIF receptor signaling, we here characterized the structures of the threeA. thalianaMDLs by X-ray crystallography and explored the mechanism underlying the interplay between plant MDLs, human MIF, and its receptors. We obtained high-resolution structures at 1.56 Å, 1.40 Å, and 2.00 Å resolution for MDL1, MDL2, and MDL3, respectively, revealing a typical trimeric assembly and a high three-dimensional similarity to human MIF. Although residues at the catalytic site of the three MDLs show high identity to human MIF, the proteins showed low tautomerase activity for the substrate 4-hydroxyphenylpyruvate (HPP). Structural differences likely explain the enzymatic inactivity of plant MDLs for HPP. Strikingly, employingin vitro, in vivo,andin plantatest systems, we found that MIF and MDL proteins interact with each other and have the capacity to form hetero-oligomeric complexes. The functional consequences of this interaction were demonstrated applying a yeast-based reporter system specific for the MIF chemokine receptors CXCR2 and CXCR4. MDLs not only triggered receptor signaling on their own, but exhibited pronounced synergism regarding the activation of the CXCR2- and CXCR4-dependent signaling pathways, when co-applied with MIF. These findings were substantiated by the co-administration of pharmacological inhibitors that either disrupt MIF receptor binding or block the catalytic cavity. Moreover, biochemical and biophysical experiments using an allosteric oligomer-specific MIF inhibitor established hexa-oligomer formation between MIF and MDLs as the putative basis for the synergistic effect. Our results are the starting point for a mechanistic understanding of the immunomodulatory activity of a family of highly conserved plant proteins.One Sentence SummaryA. thalianaMDLs and human macrophage inhibitory factor interact with each other and induce synergistic effects in activating CXCR2 and CXCR4.