Activation of precursor proteins by specific proteolysis is a hallmark of blood coagulation. The inactive procofactor protein factor V (FV) cannot participate to any significant degree in its macromolecular enzyme complex. Activity is generated following proteolysis, indicating that the conversion of the procofactor to FVa must result in structural changes that impart cofactor function. While there has been widespread interest in studying this protein, little is known about how specific bond cleavage and B-domain release facilitate this conversion process. The long-term objective of this proposal is to decipher these molecular processes and provide detailed insight into how FV is preserved as an inactive procofactor. This molecular process undoubtedly plays critical regulatory roles, evolved to maintain normal hemostasis since FVa has a tremendous influence on IIa generation. In the first aim, we will define the structural requirements necessary to maintain the FV procofactor state. We hypothesize that there are conserved regions in the B-domain that are instrumental in suppressing cofactor activity, despite the fact that this domain is poorly conserved and varies in length among vertebrates. In the second aim, we will investigate the mechanism by which B-domain sequences preserve the procofactor state. We hypothesize that discrete regions of the B-domain make direct contacts on the heavy and/or light chain thereby masking critical structural determinants. In the third aim, we will exploit the diversity of vertebrate FV B-domains to determine whether a common mode of inhibition is preserved across species. We hypothesize that B-domains from vertebrate species retain common sequences that will preserve the human FV procofactor state. In the final aim, we will examine the influence of FV B- domain sequences on protease susceptibility and examine the biological significance of keeping FV inactive. We hypothesize that the B-domain significantly affects how proteases such as activated protein C and thrombin engage and act on FV. These hypotheses will be tested using biochemical, kinetic, and equilibrium binding approaches employing well characterized recombinant proteins. A complete picture of the molecular events leading to the expression of functional binding sites on FVa will not only shed light on the function of this protein but will also enhance our understanding of the biological relevance of preserving FV as an inactive procofactor. Knowledge gained from this proposal may also reveal previously unrecognized ways to modulate FV/FVa function.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL088010-05
Application #
8207980
Study Section
Hemostasis and Thrombosis Study Section (HT)
Program Officer
Link, Rebecca P
Project Start
2008-01-01
Project End
2013-12-31
Budget Start
2012-01-01
Budget End
2013-12-31
Support Year
5
Fiscal Year
2012
Total Cost
$325,710
Indirect Cost
$127,710
Name
Children's Hospital of Philadelphia
Department
Type
DUNS #
073757627
City
Philadelphia
State
PA
Country
United States
Zip Code
19104
Vadivel, Kanagasabai; Kumar, Yogesh; Bunce, Matthew W et al. (2017) Interaction of factor V B-domain acidic region with its basic region and with TFPI/TFPI2: Structural insights from molecular modeling studies. Int Biol Rev 1:
Liang, Hai Po H; Kerschen, Edward J; Basu, Sreemanti et al. (2015) Coagulation factor V mediates inhibition of tissue factor signaling by activated protein C in mice. Blood 126:2415-23
Vadivel, Kanagasabai; Ponnuraj, Sathya-Moorthy; Kumar, Yogesh et al. (2014) Platelets contain tissue factor pathway inhibitor-2 derived from megakaryocytes and inhibits fibrinolysis. J Biol Chem 289:31647-61
Siner, Joshua I; Iacobelli, Nicholas P; Sabatino, Denise E et al. (2013) Minimal modification in the factor VIII B-domain sequence ameliorates the murine hemophilia A phenotype. Blood 121:4396-403
Bunce, Matthew W; Bos, Mettine H A; Krishnaswamy, Sriram et al. (2013) Restoring the procofactor state of factor Va-like variants by complementation with B-domain peptides. J Biol Chem 288:30151-60
Thalji, Nabil; Camire, Rodney M (2013) Parahemophilia: new insights into factor v deficiency. Semin Thromb Hemost 39:607-12
Schuijt, Tim J; Bakhtiari, Kamran; Daffre, Sirlei et al. (2013) Factor Xa activation of factor V is of paramount importance in initiating the coagulation system: lessons from a tick salivary protein. Circulation 128:254-66
Lechtenberg, Bernhard C; Murray-Rust, Thomas A; Johnson, Daniel J D et al. (2013) Crystal structure of the prothrombinase complex from the venom of Pseudonaja textilis. Blood 122:2777-83
Bos, Mettine H A; Camire, Rodney M (2012) A bipartite autoinhibitory region within the B-domain suppresses function in factor V. J Biol Chem 287:26342-51
Ivanciu, Lacramioara; Krishnaswamy, Sriram; Camire, Rodney M (2012) Imaging coagulation reactions in vivo. Thromb Res 129 Suppl 2:S54-6

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