AI Article Synopsis
- Integrins are specialized proteins that help cells stick to one another and communicate signals across their membranes, with most having a shape that changes when active.
- Unlike other integrins, integrin β has a unique structure that lacks a key sequence for sending signals from inside the cell, indicating it may operate differently.
- Despite not changing shape when binding with ligands or metals, integrin β maintains a strong connection with targets, which makes it an unusual but effective member of the integrin family.
Article Abstract
Integrins are heterodimeric transmembrane proteins that play important roles in various biological processes. Most integrins serve as adhesion molecules and transmit bidirectional signaling across the cell membrane through global conformational changes from the bent closed to the extended open conformation. However, integrin β is distinctive in structure and function. Its cytoplasmic domain lacks the conserved protein-binding sequence, which is important in transmitting inside-out signals, suggesting that integrin β may have a different activation mechanism or lack such signaling. In addition, the ligand-binding or activating metal ion Mn does not induce a global conformational change in integrin β . It may have only one conformation, that is, an extended, closed conformation, but with high affinity for ligands under physiological conditions, and is, therefore, considered an atypical integrin member. The extended structure and high ligand-binding affinity of integrin α β make it ideal for encountering and binding ligands expressed on an opposing cell or in the extracellular matrix. In this review, we summarize the progress in integrin β research with a focus on its distinctive function and structure among integrin members.
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| http://dx.doi.org/10.1002/jcp.30242 | DOI Listing |
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