Sheep anti-human Kininogen, Aff. Pur.
Kininogens are multi-function proteins that are involved in the processes of coagulation, anticoagulation, fibrinolysis, inflammation and cell adhesion. Kininogens are produced in the
liver but have also been found in platelets, granulocytes, renal tubular cells and skin. Two forms of kininogen are identified in plasma, both of which are the result of differential splicing of a single gene. High molecular weight kininogen (HK), previously known as Fitzgerald Factor, is a single chain glycoprotein of 120 kDa with a plasma concentration of 80 μg/mL (660 nM). Low
molecular weight kininogen (LK), also known as α-cysteine protease inhibitor, is a single chain glycoprotein of 68 kDa with a plasma concentration of 160 μg/mL (2.35 μM). HK and LK share
a common heavy chain and bradykinin domain, but have unique light chains. It is the light chain of HK that is responsible for the coagulant cofactor activity by binding to anionic surfaces and for the ability to bind the zymogens prekallikrein (PK) and factor XI (FXI). HK is cleaved by kallikrein in several sequential steps that result in the release of a potent vasodilator bradykinin and the
conversion to a two-chain form of HK with increased cofactor activity. In plasma, most of the PK and FXI circulate in complex with HK. Activation of PK by FXIIa generates kallikrein, which
initiates reciprocal activation of PK and FXI. The presence of HK also serves to protect kallikrein and activated FXI from protease inhibitors such as C1-Inhibitor, but regulation of the system may
be accomplished through proteolytic inactivation of the HK cofactor activity by these enzymes.
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