Abstract
Integrins are transmembrane proteins involved in hemostasis, wound healing, immunity and cancer. In response to intracellular signals and ligand binding, integrins adopt different conformations: the bent (resting) form; the intermediate extended form; and the ligand-occupied active form. An integrin undergoing such conformational dynamics is the heterodimeric platelet receptor αIIbβ3. Although the dramatic rearrangement of the overall structure of αIIbβ3 during the activation process is potentially related to changes in the protein secondary structure, this has not been investigated so far in a membrane environment. Here we examine the Mn2+- and drug-induced activation of αIIbβ3 and the impact on the structure of this protein reconstituted into liposomes. By quartz crystal microbalance with dissipation monitoring and activation assays we show that Mn2+ induces binding of the conformation-specific antibody PAC-1, which only recognizes the extended, active integrin. Circular dichroism spectroscopy reveals, however, that Mn2+-treatment does not induce major secondary structural changes of αIIbβ3. Similarly, we found that treatment with clinically relevant drugs (e.g. quinine) led to the activation of αIIbβ3 without significant changes in protein secondary structure. Molecular dynamics simulation studies revealed minor local changes in the beta-sheet probability of several extracellular domains of the integrin. Our experimental setup represents a new approach to study transmembrane proteins, especially integrins, in a membrane environment and opens a new way for testing drug binding to integrins under clinically relevant conditions.
Highlights
The heterodimeric platelet receptor integrin αIIbβ3 mediates cell adhesion and plays a critical role in hemostasis and clot formation [1, 2]
By dynamic light scattering (DLS) it was demonstrated that the diameter of the proteoliposomes (255 ± 16.6 nm) was significantly larger than that of bare liposomes (161 ± 1.3 nm) (Fig 2B)
In this study we investigated the correlation between the secondary structure of αIIbβ3 reconstituted into liposomes and its activation state
Summary
The heterodimeric platelet receptor integrin αIIbβ mediates cell adhesion and plays a critical role in hemostasis and clot formation [1, 2]. Regulating the activity of αIIbβ is essential for platelet stimulation and prevention of their uncontrolled aggregation [3, 4]. The expression of αIIbβ is restricted to megakaryocytes, where the two subunits are assembled in the endoplasmic reticulum. Integrin αIIbβ is a bidirectional receptor that undergoes outside-in and inside-out signaling and is present in at least three different conformations as demonstrated by cryo-electron microscopy (EM), negatively stained EM or by nuclear magnetic resonance [6,7,8]: i) the bent (resting) low affinity state; ii) the intermediate extended state (opening); and iii) the ligandoccupied high affinity active form [9]
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