The Role of High Molecular Weight Kininogen and Prothrombin as Cofactors in the Binding of Factor XI A3 Domain to the Platelet Surface

Ho, David; Badellino, Karen O.; Baglia, Frank A.; Sun, Mao-fu; Zhao, Mingming; Gailani, David; Walsh, Peter N.

doi:10.1074/jbc.m001890200

Cited by 37 publications

(54 citation statements)

References 31 publications

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“…However recent observations cast considerable doubt on the conclusion that activated platelets can promote the feedback activation of FXI by thrombin (35)(36)(37). Therefore, in a revised model of the interactions of FXI and FXIa with the activated platelet surface (Figure 7), dimeric FXI in complex with either HK or prothrombin is shown to expose a site within the A3 domain that binds to glycoprotein Ibα on the activated platelet surface (12)(13)(14)(15)19). Since this interaction has been demonstrated to be reversible (13), and since it has not been rigorously demonstrated whether it is the plateletbound or soluble form of FXI that is converted to FXIa, the activation of FXI by FXIIa, FXIa or thrombin is shown in Figure 7 to occur in solution.…”

Section: Discussionmentioning

confidence: 99%

“…FXI when complexed with HK in the presence of ZnCl 2 or prothrombin in the presence of CaCl 2 (13,14) binds to the activated platelet surface through the A3domain (12,15). It is hypothesized that the formation of the FXI/HK or FXI/FII complex leads to the exposure of residues within the A3 domain that mediate FXI-binding to platelets (14,15).…”

Section: The Apple 3 Domain Of Factor Xia Does Not Mediate the Bindinmentioning

confidence: 99%

“…It is hypothesized that the formation of the FXI/HK or FXI/FII complex leads to the exposure of residues within the A3 domain that mediate FXI-binding to platelets (14,15). FXIa binds to high-affinity receptors on the activated platelet surface that are distinct from the receptors for FXI (24,25).…”

Section: The Apple 3 Domain Of Factor Xia Does Not Mediate the Bindinmentioning

confidence: 99%

“…This possibility was substantiated by the seminal observations of Naito and Fujikawa (10) and Gailani and Broze (11) who demonstrated that FXI could be activated by thrombin in the presence of dextran sulfate. Although the physiological surface that might potentiate FXI-activation by thrombin has not been definitively identified, it has been demonstrated that FXI binds to high-affinity (K D ~10 nM), saturable, specific receptors (B max ~1,500 sites/ platelet) on activated platelets, in the presence of HK and ZnCl 2 or prothrombin and CaCl 2 (12)(13)(14)(15). It is hypothesized that the formation of the FXI/HK or FXI/prothrombin complex leads to the exposure of residues within the Apple 3 (A3) domain that mediate FXI-binding (12,15) to activated platelets where FXI can be cleaved to FXIa by FXIIa (16) and possibly also by thrombin (17).…”

mentioning

confidence: 99%

“…Two chimeras were generated, rFXI/PKA3 and rFXIa/PKA3, in which the A3 domain of FXI, the domain responsible for mediating the binding of FXI to the activated platelet surface (12,14), was replaced with the A3 domain of PK in order to study the binding of FXIa to platelets. We have examined the ability of FXI and FXIa as well as rFXI/ PKA3 and rFXIa/PKA3 chimeras to compete with 125 I-FXIa for binding to the activated platelet surface.…”

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confidence: 99%

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A Catalytic Domain Exosite (Cys⁵²⁷−Cys⁵⁴²) in Factor XIa Mediates Binding to a Site on Activated Platelets

et al. 2007

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The zymogen, factor XI, and the enzyme, factor XIa, interact specifically with functional receptors on the surface of activated platelets. The present studies were initiated to identify the molecular subdomain within factor XIa that binds to activated platelets. Both factor XIa (K i ~1.4 nM) and a chimeric factor XIa containing the Apple 3 domain of prekallikrein (K i ~2.7 nM) competed with 125 I-factor XIa for binding sites on activated platelets suggesting that the factor XIa binding site for platelets is not located in the Apple 3 domain which mediates factor XI binding to platelets. The recombinant catalytic domain (Ile 370 -Val 607 ) inhibited the binding of 125 I-factor XIa to the platelets (K i ~3.5 nM) whereas the recombinant factor XI heavy chain did not demonstrating that the platelet binding site is located in the light chain of factor XIa. A conformationally constrained cyclic peptide (Cys 527 -Cys 542 ) containing a high-affinity (K D ~86 nM) heparin-binding site within the catalytic domain of factor XIa also displaced 125 I-factor XIa from the surface of activated platelets (K i ~5.8 nM), whereas a scrambled peptide of identical composition was without effect suggesting that the binding site in factor XIa that interacts with the platelet surface resides in the catalytic domain near the heparin binding site of factor XIa. These data support the conclusion that a conformational transition accompanies conversion of factor XI to factor XIa that conceals the Apple 3 domain factor XI (zymogen) platelet binding site and exposes the factor XIa (enzyme) platelet binding site within the catalytic domain possibly comprising residues Cys 527 -Cys 542 . KeywordsFactor XIa; Platelet Receptors; Factor XI; Catalytic Domain Exosites; Apple Domains Factor XI (FXI) 1 is a homodimeric plasma coagulation protein (1-4), deficiency of which produces a mild hemostatic defect associated with trauma or surgery (5-8), in contrast to deficiencies of the "contact factors" (Factor XII [FXII], prekallikrein [PK], and high molecular † This work is supported by research grants from the National Institute of Health: (HL74124 and HL46213 to PNW and from the American Heart Association (99100069U to TRB). *To Whom Correspondence Should be Addressed: Peter N. Walsh, M.D., Ph.D., Sol Sherry Thrombosis Research Center, Temple University School of Medicine, 3400 North Broad Street, Philadelphia, PA 19140; Tel.: 215-707-4375; Fax: 215-707-3005; E-mail: pnw@temple.edu. 1 Abbrevations used: FXI, factor XI; FXIa, factor XIa; FXII, factor XII; FXIIa, factor XIIa; PK, prekallikrein; HK, high molecular weight kininogen; A3, Apple 3; FIX, factor IX; FIXa, factor IXa; PN2, protease nexin 2; pFXIa, plasma FXIa; rFXI/PKA3, recombinant FXI with the A3 domain of FXI replaced with the A3 of PK; rFXIa/C362S,C482S, recombinant FXI with cysteine 362 and cysteine 482 mutated to serines; rFXIac, factor XIa catalytic domain; TRAP, thrombin receptor activation peptide.

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Section: Discussionmentioning

confidence: 99%

Section: The Apple 3 Domain Of Factor Xia Does Not Mediate the Bindinmentioning

confidence: 99%

Section: The Apple 3 Domain Of Factor Xia Does Not Mediate the Bindinmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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A Catalytic Domain Exosite (Cys⁵²⁷−Cys⁵⁴²) in Factor XIa Mediates Binding to a Site on Activated Platelets

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Survey of the year 2000 commercial optical biosensor literature

Rich

Myszka

2001

J of Molecular Recognition

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We have compiled a comprehensive list of the articles published in the year 2000 that describe work employing commercial optical biosensors. Selected reviews of interest for the general biosensor user are highlighted. Emerging applications in areas of drug discovery, clinical support, food and environment monitoring, and cell membrane biology are emphasized. In addition, the experimental design and data processing steps necessary to achieve high-quality biosensor data are described and examples of well-performed kinetic analysis are provided.

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Microneme Proteins in Apicomplexans

Carruthers

Tomley

Subcellular Biochemistry

207

164

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Microneme secretion supports several key cellular processes including gliding motility, active cell invasion and migration through cells, biological barriers, and tissues. The modular design of microneme proteins enables these molecules to assist each other in folding and passage through the quality control system, accurately target to the micronemes, oligimerizing with other parasite proteins, and engaging a variety of host receptors for migration and cell invasion. Structural and biochemical analyses of MIC domains is providing new perspectives on how adhesion is regulated and the potentially distinct roles MICs might play in long or short range interactions during parasite attachment and entry. New access to complete genome sequences and ongoing advances in genetic manipulation should provide fertile ground for refining current models and defining exciting new roles for MICs in apicomplexan biology.

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The Role of High Molecular Weight Kininogen and Prothrombin as Cofactors in the Binding of Factor XI A3 Domain to the Platelet Surface

Cited by 37 publications

References 31 publications

A Catalytic Domain Exosite (Cys⁵²⁷−Cys⁵⁴²) in Factor XIa Mediates Binding to a Site on Activated Platelets

A Catalytic Domain Exosite (Cys⁵²⁷−Cys⁵⁴²) in Factor XIa Mediates Binding to a Site on Activated Platelets

Survey of the year 2000 commercial optical biosensor literature

Microneme Proteins in Apicomplexans

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The Role of High Molecular Weight Kininogen and Prothrombin as Cofactors in the Binding of Factor XI A3 Domain to the Platelet Surface

Cited by 37 publications

References 31 publications

A Catalytic Domain Exosite (Cys527−Cys542) in Factor XIa Mediates Binding to a Site on Activated Platelets

A Catalytic Domain Exosite (Cys527−Cys542) in Factor XIa Mediates Binding to a Site on Activated Platelets

Survey of the year 2000 commercial optical biosensor literature

Microneme Proteins in Apicomplexans

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A Catalytic Domain Exosite (Cys⁵²⁷−Cys⁵⁴²) in Factor XIa Mediates Binding to a Site on Activated Platelets

A Catalytic Domain Exosite (Cys⁵²⁷−Cys⁵⁴²) in Factor XIa Mediates Binding to a Site on Activated Platelets