Hemophilia A, the most common of the severe, inherited bleeding disorder, resulting from a deficiency of defect in factor VIII. The activated form of factor VIII, factor VIIIa, functions as a co-factor for the factor IVa-dependent activation of factor X, increasing the kcat for this reaction by several orders of magnitude. We propose to elucidate fine point structural detains of inter-protein interactions that will define mechanisms for the regulation of this critical plasma protein and activity of the intrinsic factor Xase, applying physical and biochemical approaches and utilizing molecular biological methods.
The first aim will study interactions of factors VIIIa and IXa. Our goal is to define mechanisms that contribute to rate enhancement and that are responsible for a novel interactive process resulting in reciprocal regulation of cofactor and enzyme activities. To this end we will (i) construct and analyze recombinant factor VIII and A2 subunit containing point mutations in a putative factor IXa-interactive surface loop, (ii) quantitate binding parameters binding parameters, (iii) assess contribution of factor IVa to factor VIIIa subunit stability, (iv) determine geometry within the intrinsic factor Xase, (v) evaluate the role of C-terminal acidic region in factor IVa-catalyzed inactivation of the co-factor and (vi) determine factor Xase stability using a cleavage- resistant factor VIII and a novel factor IXa molecule.
The second aim studies a newly identified interactions between factor VIII and substrate factor X. Our goal is to characterize this interaction and determine its functional significance. Proposed studies will (i) identify the interactive region in factor VIIIa and quantitate binding parameters and (ii) determine the consequence the consequence of this interaction in terms of product generation and regulation of factor Xase activity.
A final aim will study activated protein C (APC) catalyzed inactivation of factor VIIIa. Our goal is to define mechanisms contributing to substrate site selectivity and decay of factor Xase on the endothelial cell (EC) surface. Studies will (i) quantitate rates of attack by APC and factor IXa at a common bond in factor VIIIa, (ii) evaluate factor VIIIa inactivation resulting solely from cleavage at the A2 site and (iii) assess the basis for the role of protein S in defining site selectivity. Experiments will characterize factor VIIIa-dependent inactivation of factor Xase by APC on the EC, a physiologic surface where this pathway potentially represents the dominant mode for factor Xase damping. Definition of these issues will yield valuable insights into the biochemistry of the native as well as dysfunctional factor VIII molecules, and provide information for the design of superior therapeutics.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Program Projects (P01)
Project #
5P01HL030616-19
Application #
6578849
Study Section
Project Start
2002-04-01
Project End
2003-03-31
Budget Start
Budget End
Support Year
19
Fiscal Year
2002
Total Cost
$174,086
Indirect Cost
Name
University of Rochester
Department
Type
DUNS #
208469486
City
Rochester
State
NY
Country
United States
Zip Code
14627
Sahni, Sanjeev K; Rydkina, Elena (2009) Host-cell interactions with pathogenic Rickettsia species. Future Microbiol 4:323-39
Sahni, Abha; Arévalo, Maria T; Sahni, Sanjeev K et al. (2009) The VE-cadherin binding domain of fibrinogen induces endothelial barrier permeability and enhances transendothelial migration of malignant breast epithelial cells. Int J Cancer 125:577-84
Sahni, Sanjeev K; Rydkina, Elena; Sahni, Abha (2008) The proteasome inhibitor MG132 induces nuclear translocation of erythroid transcription factor Nrf2 and cyclooxygenase-2 expression in human vascular endothelial cells. Thromb Res 122:820-5
Sahni, A; Simpson-Haidaris, P J; Sahni, S K et al. (2008) Fibrinogen synthesized by cancer cells augments the proliferative effect of fibroblast growth factor-2 (FGF-2). J Thromb Haemost 6:176-83
Mosesson, M W; Hernandez, I; Raife, T J et al. (2007) Plasma fibrinogen gamma'chain content in the thrombotic microangiopathy syndrome. J Thromb Haemost 5:62-9
Rydkina, Elena; Sahni, Abha; Baggs, Raymond B et al. (2006) Infection of human endothelial cells with spotted Fever group rickettsiae stimulates cyclooxygenase 2 expression and release of vasoactive prostaglandins. Infect Immun 74:5067-74
Sahni, Abha; Khorana, Alok A; Baggs, Raymond B et al. (2006) FGF-2 binding to fibrin(ogen) is required for augmented angiogenesis. Blood 107:126-31
Duan, Hai Ou; Simpson-Haidaris, Patricia J (2006) Cell type-specific differential induction of the human gamma-fibrinogen promoter by interleukin-6. J Biol Chem 281:12451-7
Rydkina, Elena; Silverman, David J; Sahni, Sanjeev K (2005) Activation of p38 stress-activated protein kinase during Rickettsia rickettsii infection of human endothelial cells: role in the induction of chemokine response. Cell Microbiol 7:1519-30
Clifton, Dawn R; Rydkina, Elena; Freeman, Robert S et al. (2005) NF-kappaB activation during Rickettsia rickettsii infection of endothelial cells involves the activation of catalytic IkappaB kinases IKKalpha and IKKbeta and phosphorylation-proteolysis of the inhibitor protein IkappaBalpha. Infect Immun 73:155-65

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