References
- Shimaoka , M. and Springer , T. A. 2003 . Therapeutic antagonists and conformational regulation of integrin function . Nat. Rev. Drug Discov. , 2 : 703 – 716 .
- Hynes , R. O. 2002 . Integrins: bidirectional, allosteric signaling machines . Cell , 110 : 673 – 687 .
- Chen , J. , Yang , W. , Kim , M. , Carman , C. V. and Springer , T. A. 2006 . Regulation of outside‐in signaling and affinity by the β2 I domain of integrin αL β2 . Proc. Natl. Acad. Sci. USA , 103 : 13062 – 13067 .
- Lee , J. O. , Rieu , P. , Arnaout , M. A. and Liddington , R. 1995 . Crystal structure of the A domain from the alpha subunit of integrin CR3 (CD11b/CD18) . Cell , 80 : 631 – 638 .
- Staunton , D. E. , Lupher , M. L. , Liddington , R. and Gallatin , W. M. 2006 . Targeting integrin structure and function in disease . Adv. Immunol. , 91 : 111 – 157 .
- Li , R. , Rieu , P. , Griffith , D. L. , Scott , D. and Arnaout , M. A. 1998 . Two functional states of the CD11b A‐domain: correlations with key features of two Mn2+‐complexed crystal structures . J. Cell Biol. , 143 : 1523 – 1534 .
- Oxvig , C. , Lu , C. and Springer , T. A. 1999 . Conformational changes in tertiary structure near the ligand binding site of an integrin I domain . Proc. Natl. Acad. Sci. USA , 96 : 2215 – 2220 .
- Vorup‐Jensen , T. , Ostermeier , C. , Shimaoka , M. , Hommel , U. and Springer , T. A. 2003 . Structure and allosteric regulation of the alpha X β2 integrin I domain . Proc. Natl. Acad. Sci. USA , 100 : 1873 – 1878 .
- Nishida , N. , Xie , C. , Shimaoka , M. , Cheng , Y. , Walz , T. and Springer , T. A. 2006 . Activation of leukocyte beta2 integrins by conversion from bent to extended conformations . Immunity , 25 : 583 – 594 .
- Jin , M. , Andricioaei , I. and Springer , T. A. 2004 . Conversion between three conformational states of integrin I domains with a C‐terminal pull spring studied with molecular dynamics . Structure , 12 : 2137 – 2147 .
- Xie , C. , Shimaoka , M. , Xiao , T. , Schwab , P. , Klickstein , L. B. and Springer , T. A. 2004 . The integrin alpha‐subunit leg extends at a Ca2+‐dependent epitope in the thigh/genu interface upon activation . Proc. Natl. Acad. Sci. USA , 101 : 15422 – 15427 .
- Dransfield , I. , Cabanas , C. , Barrett , J. and Hogg , N. 1992 . Interaction of leukocyte integrins with ligand is necessary but not sufficient for function . J. Cell Biol. , 116 : 1527 – 1535 .
- Beals , C. R. , Edwards , A. C. , Gottschalk , R. J. , Kuijpers , T. W. and Staunton , D. E. 2001 . CD18 activation epitopes induced by leukocyte activation . J. Immunol. , 167 : 6113 – 6122 .
- Huang , C. , Zang , Q. , Takagi , J. and Springer , T. A. 2000 . Structural and functional studies with antibodies to the integrin β2 subunit. A model for the I‐like domain . J. Biol. Chem. , 275 : 21514 – 21524 .
- Keizer , G. D. , Visser , W. , Vliem , M. and Figdor , C. G. 1988 . A monoclonal antibody (NKI‐L16) directed against a unique epitope on the alpha‐chain of human leukocyte function‐associated antigen 1 induces homotypic cell‐cell interactions . J. Immunol. , 140 : 1393 – 1400 .
- Altieri , D. C. 1991 . Occupancy of CD11b/CD18 (Mac‐1) divalent ion binding site(s) induces leukocyte adhesion . J. Immunol. , 147 : 1891 – 1898 .
- Diamond , M. S. and Springer , T. A. 1993 . A subpopulation of Mac‐1 (CD11b/CD18) molecules mediates neutrophil adhesion to ICAM‐1 and fibrinogen . J. Cell Biol. , 120 : 545 – 556 .
- Huang , L. , Shimaoka , M. , Rondon , I. J. , Roy , I. , Chang , Q. , Po , M. , Dransfield , D. T. , Ladner , R. C. , Edge , A. S. , Salas , A. , Wood , C. R. , Springer , T. A. and Cohen , E. H. 2006 . Identification and characterization of a human monoclonal antagonistic antibody AL‐57 that preferentially binds the high‐affinity form of lymphocyte function‐associated antigen‐1 . J. Leuk. Biol. , 80 : 905 – 914 .
- Shimaoka , M. , Kim , M. , Cohen , E. H. , Yang , W. , Astrof , N. , Peer , D. , Salas , A. , Ferrand , A. and Springer , T. A. 2006 . AL‐57, a ligand‐mimetic antibody to integrin LFA‐1, reveals chemokine‐induced affinity up‐regulation in lymphocytes . Proc. Natl. Acad. Sci. USA , 103 : 13991 – 13996 .
- Tomiyama , Y. , Brojer , E. , Ruggeri , Z. M. , Shattil , S. J. , Smiltneck , J. , Gorski , J. , Kumar , A. , Kieber‐Emmons , T. and Kunicki , T. J. 1992 . A molecular model of RGD ligands. Antibody D gene segments that direct specificity for the integrin alpha IIb β3 . J. Biol. Chem. , 267 : 18085 – 18092 .
- Weinreb , P. H. , Simon , K. J. , Rayhorn , P. , Yang , W. J. , Leone , D. R. , Dolinski , B. M. , Pearse , B. R. , Yokota , Y. , Kawakatsu , H. , Atakilit , A. , Sheppard , D. and Violette , S. M. 2004 . Function‐blocking integrin alphavbeta6 monoclonal antibodies: distinct ligand‐mimetic and nonligand‐mimetic classes . J. Biol. Chem. , 279 : 17875 – 17887 .
- Hogg , N. , Takacs , L. , Palmer , D. G. , Selvendran , Y. and Allen , C. 1986 . The p150,95 molecule is a marker of human mononuclear phagocytes: comparison with expression of class II molecules . Eur. J. Immunol. , 16 : 240 – 248 .
- McMichael , A. J. 1987 . Leukocyte Typing III Oxford
- Sadhu , C. , Ting , H. J. , Lipsky , B. , Hensley , K. , Garcia‐Martinez , L. , Simon , S. I. and Staunton , D. E. 2007 . CD11c/CD18: novel ligands and a role in delayed type hypersensitivity . J. Leuk. Biol. , 81 : 1395 – 1403 .
- Sadhu , C. , Masinovsky , B. and Staunton , D. E. 1998 . Differential regulation of chemoattractant‐stimulated β2, β3, and β7 integrin activity . J. Immunol. , 160 : 5622 – 5628 .
- Bazil , V. , Stefanova , I. , Hilgert , I. , Kristofova , H. , Vanek , S. and Horejsi , V. 1990 . Monoclonal antibodies against human leucocyte antigens. IV. Antibodies against subunits of the LFA‐1 (CD11a/CD18) leucocyte‐adhesion glycoprotein . Folia Biol. (Praha) , 36 : 41 – 50 .
- Orchekowski , R. P. , Plescia , J. , Altieri , D. C. and Bajt , M. L. 2000 . AlphaMbeta2 (CD11b/CD18, Mac‐1) integrin activation by a unique monoclonal antibody to alphaM I domain that is divalent cation‐sensitive . J. Leuk. Biol. , 68 : 641 – 649 .
- Landis , R. C. , Bennett , R. I. and Hogg , N. 1993 . A novel LFA‐1 activation epitope maps to the I domain . J. Cell Biol. , 120 : 1519 – 1527 .
- Lu , C. , Shimaoka , M. , Salas , A. and Springer , T. A. 2004 . The binding sites for competitive antagonistic, allosteric antagonistic, and agonistic antibodies to the I domain of integrin LFA‐1 . J. Immunol. , 173 : 3972 – 3978 .
- Lu , C. , Shimaoka , M. , Zang , Q. , Takagi , J. and Springer , T. A. 2001 . Locking in alternate conformations of the integrin αL β2 I domain with disulfide bonds reveals functional relationships among integrin domains . Proc. Natl. Acad. Sci. USA , 98 : 2393 – 2398 .
- Luk , J. , Luther , E. , Diamond , M. S. and Springer , T. S. 1995 . “ Subunit specificity and epitope mapping of Mac‐1 and p150,95 mAb using chimeric CD11b×CD11c transfectants ” . In Leukocyte Typing V: White Cell Differentiation Antigens Edited by: Schlossman , S. a.o. 1599 Oxford : Oxford Univ. Press .
- Plescia , J. , Conte , M. S. , VanMeter , G. , Ambrosini , G. and Altieri , D. C. 1998 . Molecular identification of the cross‐reacting epitope on alphaM beta2 integrin I domain recognized by anti‐αIIb β 3 monoclonal antibody 7E3 and its involvement in leukocyte adherence . J. Biol. Chem. , 273 : 20372 – 20377 .
- Li , R. , Haruta , I. , Rieu , P. , Sugimori , T. , Xiong , J. P. and Arnaout , M. A. 2002 . Characterization of a conformationally sensitive murine monoclonal antibody directed to the metal ion‐dependent adhesion site face of integrin CD11b . J. Immunol. , 168 : 1219 – 1225 .
- Salas , A. , Shimaoka , M. , Phan , U. , Kim , M. and Springer , T. A. 2006 . Transition from rolling to firm adhesion can be mimicked by extension of integrin αL β2 in an intermediate affinity state . J. Biol. Chem. , 281 : 10876 – 10882 .