Mutation of a conserved asparagine in the I-like domain promotes constitutively active integrins alphaLbeta2 and alphaIIbbeta3.

The leukocyte beta2 integrins are heterodimeric adhesion receptors required for a functional immune system. Many leukocyte adhesion deficiency-1 (LAD-1) mutations disrupt the expression and function of beta2 integrins. Herein, we further characterized the LAD-1 mutation N329S in the beta2 inserted (I)-like domain. This mutation converted alphaLbeta2 from a resting into a high affinity conformer because alphaLbeta2N329S transfectants adhered avidly to ligand intercellular adhesion molecule (ICAM)-3 in the absence of additional activating agent. An extended open conformation is adopted by alphaLbeta2N329S because of its reactivity with the beta2 activation reporter monoclonal antibodies MEM148 and KIM127. A corresponding mutation in beta3 generated constitutively active alphaIIbbeta3 that adhered to fibrinogen. This Asn is conserved in all human beta subunits, and it resides before the last helix of the I-like domain, which is known to be important in activation signal propagation. By mutagenesis studies and review of existing integrin structures, we conjectured that this conserved Asn may have a primary role in shaping the I-like domain by stabilizing the conformation of the alpha7 helix and the beta6-alpha7 loop in the I-like domain.

Down-regulation of integrin alpha M beta 2 ligand-binding function by the urokinase-type plasminogen activator receptor.

The cell adhesion molecule integrin alphaMbeta2 associates with the urokinase-type plasminogen activator receptor (uPAR) on monocytes and neutrophils. uPAR also associates with members of the beta1 and beta3 integrins, and it modulates the ligand-binding function of these integrins. In this study, we showed that co-expressing uPAR with alphaMbeta2 in 293 transfectants down-regulated the ligand-binding capacity of alphaMbeta2 to denatured protein, fibrinogen, and intercellular adhesion molecule 1 (ICAM-1). Migration of transfectants on fibrinogen mediated by alphaMbeta2 was reduced in the presence of uPAR. In addition, the constitutive ligand-binding property of an alphaMbeta2 mutant was attenuated by its association with uPAR. Co-immunoprecipitation analyses using a panel of alphaMbeta2-specific mAbs suggest shielding of the ligand-recognition site of alphaMbeta2 by uPAR.