[HTML][HTML] Protein disulfide isomerase mediates integrin-dependent adhesion

J Lahav, N Gofer-Dadosh, J Luboshitz, O Hess… - FEBS letters, 2000 - Elsevier
J Lahav, N Gofer-Dadosh, J Luboshitz, O Hess, M Shaklai
FEBS letters, 2000Elsevier
Cell adhesion is mediated by the integrin adhesion receptors. Receptor–ligand interaction
involves conformational changes in the receptor, but the underlying mechanism remains
unclear. Our earlier work implied a role for sulfhydryls in integrin response to ligand binding
in the intact blood platelet. We now show that non-penetrating blockers of free sulfhydryls
inhibit β1 and β3 integrin-mediated platelet adhesion regardless of the affinity state of the
integrin. Removal of the inhibitors prior to adhesion fully restores adhesion despite the …
Cell adhesion is mediated by the integrin adhesion receptors. Receptor–ligand interaction involves conformational changes in the receptor, but the underlying mechanism remains unclear. Our earlier work implied a role for sulfhydryls in integrin response to ligand binding in the intact blood platelet. We now show that non-penetrating blockers of free sulfhydryls inhibit β1 and β3 integrin-mediated platelet adhesion regardless of the affinity state of the integrin. Removal of the inhibitors prior to adhesion fully restores adhesion despite the irreversible nature of inhibitor–thiol interaction, indicating sulfhydryl exposure in response to adhesion. We further show that blocking protein disulfide isomerase (PDI) inhibits adhesion. These data indicate that: (a) ecto-sulfhydryls are necessary for integrin-mediated platelet adhesion; (b) disulfide exchange takes place during this process; (c) surface PDI is involved in integrin-mediated adhesion.
Elsevier