Abstract
Since the original description in 1996, the interaction between the cytokine osteopontin (OPN) and the homing receptor CD44 has been extensively studied in cancer, inflammation, bone remodeling, and various other conditions. Alternative splicing and extensive posttranslational modifications by both binding partners, as well as the possibility for lateral recruitment of additional membrane receptors or soluble co-ligands into a complex have left the exact molecular requirements for high-affinity OPN-CD44 binding unresolved. We now report that there is a moderate engagement between the unmodified molecules, which results in curved double-reciprocal plots for OPN titration, suggesting the existence of two binding sites or two binding conformations. Structural constraint of OPN, by immobilization or by addition of heparin, is required for its strong ligation of CD44. Prior literature provides evidence that heparin binding to OPN prompts the unfolding of a core element in the protein. This conformational adjustment may be essential for efficient CD44 interaction. The integrin α9β1 seems to compete with the OPN-CD44 engagement, while the integrin αVβ3 reflects additive binding, suggesting that the CD44 contact sites on OPN are downstream of the RGD motif but overlap with the SVVYGLR domain. Hyaluronate has no effect, placing the relevant domain on CD44 downstream of the N-terminus.
Highlights
Osteopontin (OPN) plays essential roles in tissue remodeling, cellular immune responses, and the calcium homeostasis of milk and urine
The initial report describing OPN effects to be exerted on cells via CD44 [8] has been amply corroborated (Supplementary Table S1), there have been conflicting observations regarding the CD44 splice variants that are permissive for OPN binding and regarding the possible contributions to the interaction by recruited integrins
CD44v in the flow bound to immobilized CD44v (Figure 1A). This is consistent with a literature report that variant, but not standard CD44 can aggregate [11], which is consistent with these surface plasmon resonance results
Summary
Osteopontin (OPN) plays essential roles in tissue remodeling, cellular immune responses, and the calcium homeostasis of milk and urine. The initial report describing OPN effects to be exerted on cells via CD44 [8] has been amply corroborated (Supplementary Table S1), there have been conflicting observations regarding the CD44 splice variants that are permissive for OPN binding and regarding the possible contributions to the interaction by recruited integrins. It is yet unknown whether the CD44 ligand hyaluronate can have synergistic or antagonistic functions, and whether a heparin bridge or a heparin-dependent conformational change in OPN can support a high affinity engagement.
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