Description
Integrins are a family of αβ heterodimeric transmembrane receptors. As an important class of adhesion receptors, integrins mediate cell adhesion, migration, and transformation through bidirectional signaling across the plasma membrane. Among the 24 different types of integrins, which are notorious for their capacity to recognize multiple ligands, the leukocyte integrin αMβ2 (Mac-1) is the most promiscuous member. In contrast to other integrins, Mac1 is unique with respect to its preference for cationic ligands. In this thesis, a new Mac-1 cationic ligand named pleiotrophin (PTN) is uncovered. PTN is an important cytokine and growth factor. Its activities in mitogenesis and angiogenesis have been extensively researched, but its function on immune cells was not widely explored. In this research, the cell biology and biochemical evidences show that PTN can regulate various Mac-1-expressing cells functions through the activation of the extracellular signal regulated kinases. Direct interactions between PTN and the αM I-domain, the major ligand-binding domain of Mac-1, has been shown using biolayer interferometry analyses and confirmed by solution NMR spectroscopy. The binding epitopes and the binding mechanism of PTN and αM I-domain interaction were further revealed by peptide array analysis and microscale thermophoresis. The data suggested that PTN’s thrombospondin type-1 repeat (TSR) domains and αM I-domain metal-ion-dependent adhesion site (MIDAS) are the major binding sites. In addition, this interaction followed a novel metal-ion independent binding mechanism which has not been found in other integrins. After a series of characterizations of αM I-domain using both experimental and computational methods, it showed that activated αM I-domain is significantly more dynamic than inactive αM I-domain, and the dynamics seem to modulate the effect of Mg2+ on its interactions with cationic ligands. To further explore the PTN induced Mac-1 structure rearrangement, intact Mac-1 was studied by negative stain electron microscopy. The results showed that the Mac-1 exhibited a very heterogeneous conformation distribution in detergents. In contrast, the Mac-1 adopted predominantly the bent conformation in phospholipid nanodisc condition. This Mac-1 nanodisc model provides a new platform for studying intact Mac-1 activation mechanism in a more physiologically relevant manner in the future.
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Details
Title
- Functional and Structural Studies on Interactions of the Leukocyte Integrin αMβ2 with Cationic Ligands
Contributors
- Shen, Di (Author)
- Wang, Xu (Thesis advisor)
- Van Horn, Wade (Committee member)
- Yarger, Jeffery (Committee member)
- Arizona State University (Publisher)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2020
Resource Type
Collections this item is in
Note
- Doctoral Dissertation Biochemistry 2020