The acidic intrinsically disordered region of the inflammatory mediator HMGB1 mediates fuzzy interactions with chemokine CXCL12

Chemokines engage in heterodimeric interactions to activate or dampen their cognate receptors in inflammatory conditions. The chemokine CXCL12 forms with the alarmin HMGB1 a patho-physiologically relevant heterocomplex (HMGB1●CXCL12), whose formation synergically promotes the inflammatory response elicited by the G-protein coupled receptor CXCR4. However, the molecular details of complex formation were still elusive. Through an integrative structural approach (NMR, AUC, ITC, MST, SAXS) we show that HMGB1●CXCL12 represents the first fuzzy chemokines heterocomplex reported so far. HMGB1 and CXCL12 form a dynamic equimolar assembly, rather than involving one HMGB1 and two CXCL12 molecules as previously assumed, with structured and unstructured HMGB1 regions recognizing the dimerization surface of CXCL12. We uncover an unexpected role of the acidic intrinsically disordered region (IDR) in heterocomplex formation and provide the first evidence that the acidic IDR facilitates the ternary HMGB1•CXCL12•CXCR4 interaction on the cell surface. Thus, the interaction of HMGB1 with CXCL12 diverges radically from the classical rigid heterophilic chemokine-chemokine dimerization. Simultaneous interference with the multiple interactions within HMGB1●CXCL12 complex formation might offer novel pharmacological strategies to inhibit its detrimental activity in inflammatory conditions.