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W2009686070 abstract "Because understanding of the inventory, connectivity and dynamics of the components characterizing the process of coagulation is relatively mature, it has become an attractive target for physiochemical modeling. Such models can potentially improve the design of therapeutics. The prothrombinase complex (composed of the protease factor (F)Xa and its cofactor FVa) plays a central role in this network as the main producer of thrombin, which catalyses both the activation of platelets and the conversion of fibrinogen to fibrin, the main substances of a clot. A key negative feedback loop that prevents clot propagation beyond the site of injury is the thrombin-dependent generation of activated protein C (APC), an enzyme that inactivates FVa, thus neutralizing the prothrombinase complex. APC inactivation of FVa is complex, involving the production of partially active intermediates and protection of FVa from APC by both FXa and prothrombin. An empirically validated mathematical model of this process would be useful in advancing the predictive capacity of comprehensive models of coagulation.A model of human APC inactivation of prothrombinase was constructed in a stepwise fashion by analyzing time courses of FVa inactivation in empirical reaction systems with increasing number of interacting components and generating corresponding model constructs of each reaction system. Reaction mechanisms, rate constants and equilibrium constants informing these model constructs were initially derived from various research groups reporting on APC inactivation of FVa in isolation, or in the presence of FXa or prothrombin. Model predictions were assessed against empirical data measuring the appearance and disappearance of multiple FVa degradation intermediates as well as prothrombinase activity changes, with plasma proteins derived from multiple preparations. Our work integrates previously published findings and through the cooperative analysis of in vitro experiments and mathematical constructs we are able to produce a final validated model that includes 24 chemical reactions and interactions with 14 unique rate constants which describe the flux in concentrations of 24 species.This study highlights the complexity of the inactivation process and provides a module of equations describing the Protein C pathway that can be integrated into existing comprehensive mathematical models describing tissue factor initiated coagulation." @default.
W2009686070 created "2016-06-24" @default.
W2009686070 creator A5004717464 @default.
W2009686070 creator A5043540495 @default.
W2009686070 creator A5056931515 @default.
W2009686070 creator A5075389112 @default.
W2009686070 date "2012-05-20" @default.
W2009686070 modified "2023-10-05" @default.
W2009686070 title "Modeling of human factor Va inactivation by activated protein C" @default.
W2009686070 cites W1410342483 @default.
W2009686070 cites W1484991497 @default.
W2009686070 cites W1498794674 @default.
W2009686070 cites W1511802802 @default.
W2009686070 cites W1514670886 @default.
W2009686070 cites W1516041101 @default.
W2009686070 cites W1519587642 @default.
W2009686070 cites W1527081709 @default.
W2009686070 cites W1533471204 @default.
W2009686070 cites W1551633927 @default.
W2009686070 cites W1554315814 @default.
W2009686070 cites W1561398384 @default.
W2009686070 cites W1561534093 @default.
W2009686070 cites W1563610085 @default.
W2009686070 cites W1584046144 @default.
W2009686070 cites W1584149880 @default.
W2009686070 cites W1589420516 @default.
W2009686070 cites W1603783662 @default.
W2009686070 cites W1635973539 @default.
W2009686070 cites W1639438268 @default.
W2009686070 cites W1639651656 @default.
W2009686070 cites W1913922322 @default.
W2009686070 cites W1961597147 @default.
W2009686070 cites W1965958910 @default.
W2009686070 cites W1974706567 @default.
W2009686070 cites W1978980388 @default.
W2009686070 cites W1979754535 @default.
W2009686070 cites W1983547075 @default.
W2009686070 cites W1987451876 @default.
W2009686070 cites W1988524638 @default.
W2009686070 cites W1989188797 @default.
W2009686070 cites W1989543052 @default.
W2009686070 cites W1991312270 @default.
W2009686070 cites W1992232455 @default.
W2009686070 cites W1993804731 @default.
W2009686070 cites W1995474189 @default.
W2009686070 cites W1996273963 @default.
W2009686070 cites W2002226345 @default.
W2009686070 cites W2007914723 @default.
W2009686070 cites W2011275596 @default.
W2009686070 cites W2011708104 @default.
W2009686070 cites W2014763743 @default.
W2009686070 cites W2014881782 @default.
W2009686070 cites W2029807228 @default.
W2009686070 cites W2032711004 @default.
W2009686070 cites W2034127014 @default.
W2009686070 cites W2043588253 @default.
W2009686070 cites W2046089822 @default.
W2009686070 cites W2051513990 @default.
W2009686070 cites W2054111819 @default.
W2009686070 cites W2055031676 @default.
W2009686070 cites W2055883779 @default.
W2009686070 cites W2056894234 @default.
W2009686070 cites W2058161894 @default.
W2009686070 cites W2061216302 @default.
W2009686070 cites W2064104880 @default.
W2009686070 cites W2065771006 @default.
W2009686070 cites W2069578485 @default.
W2009686070 cites W2072199259 @default.
W2009686070 cites W2072395307 @default.
W2009686070 cites W2074044112 @default.
W2009686070 cites W2078034467 @default.
W2009686070 cites W2086813289 @default.
W2009686070 cites W2090625610 @default.
W2009686070 cites W2092919697 @default.
W2009686070 cites W2093019727 @default.
W2009686070 cites W2102115640 @default.
W2009686070 cites W2114955844 @default.
W2009686070 cites W2121293250 @default.
W2009686070 cites W2125573572 @default.
W2009686070 cites W2128602721 @default.
W2009686070 cites W2132984496 @default.
W2009686070 cites W2136145851 @default.
W2009686070 cites W2136453624 @default.
W2009686070 cites W2136642248 @default.
W2009686070 cites W2139946379 @default.
W2009686070 cites W2140453069 @default.
W2009686070 cites W2142872321 @default.
W2009686070 cites W2149436473 @default.
W2009686070 cites W2156488244 @default.
W2009686070 cites W2156682654 @default.
W2009686070 cites W2157515208 @default.
W2009686070 cites W2170055916 @default.
W2009686070 cites W2277914773 @default.
W2009686070 doi "https://doi.org/10.1186/1752-0509-6-45" @default.
W2009686070 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3403913" @default.
W2009686070 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22607732" @default.
W2009686070 hasPublicationYear "2012" @default.
W2009686070 type Work @default.
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W2009686070 citedByCount "13" @default.