New insights into the phosphorylation of the threonine motif of the β1 integrin cytoplasmic domain

Integrins require an activation step before ligand binding and signaling that is mediated by talin and kindlin binding to the beta integrin cytosolic domain (beta-tail). Conflicting reports exist about the contribution of phosphorylation of a conserved threonine motif in the beta 1-tail (beta 1-pT788/pT789) to integrin activation. We show that widely used and commercially available antibodies against beta 1-pT788/pT789 integrin do not detect specific beta 1-pT788/ pT789 integrin signals in immunoblots of several human and mouse cell lysates but bind bi-phosphorylated threonine resi-dues in numerous proteins, which were identified by mass spectrometry experiments. Furthermore, we found that fibro-blasts and epithelial cells expressing the phospho-mimicking beta 1-TT788/789DD integrin failed to activate beta 1 integrins and displayed reduced integrin ligand binding, adhesion initiation and cell spreading. These cellular defects are specifically caused by the inability of kindlin to bind beta 1-tail polypeptides carrying a phosphorylated threonine motif or phospho-mimicking TT788/789DD substitutions. Our findings indicate that the double-threonine motif in beta 1-class integrins is not a major phosphory-lation site but if phosphorylated would curb integrin function.

Automated summary

This study found that widely used antibodies against β1-pT788/pT789 integrin could not specifically detect the phosphorylation signal of the integrin. Instead, these antibodies bind to bi-phosphorylated threonine residues in multiple proteins. Additionally, the study also found that a phospho-mimicking β1-TT788/789DD integrin impairs integrin function due to the inability of kindlin to bind to the phosphorylated or phospho-mimicking β1-tail.