Identification of prekallikrein and high-molecular-weight kininogen as a complex in human plasma.

Mandle, Robert J.; Colman, Robert W.; Kaplan, Allen P.

doi:10.1073/pnas.73.11.4179

Cited by 334 publications

(157 citation statements)

References 21 publications

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“…The active enzyme is generated in the contact system, the early phase of the intrinsic pathway of blood coagulation. The contact system is activated when plasma is exposed to negatively charged surfaces: the PPK-HK complex is bound via cationic regions of domain 5 of HK to the anionic surface (Mandle et al, 1976), and activated factor XII (FXIIa) generates plasma kallikrein which in turn produces FXIIa (Mandle and Kaplan, 1977). Thus, by a positive feedback reaction, a local increase in the concentration of both PK and FXIIa is achieved.…”

Section: Introductionmentioning

confidence: 99%

Expression of Plasma Prekallikrein mRNA in Human Nonhepatic Tissues and Cell Lineages Suggests Special Local Functions of the Enzyme

Hermann¹,

Arnhold²,

Kresse³

et al. 1999

Biological Chemistry

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At present it is generally accepted that plasma prekallikrein (PPK) is synthesized in the liver and secreted into the bloodstream. Surprisingly, it has recently been shown that PPK mRNA is present also in RNA from the kidney, adrenal gland and placenta. In spite of its novelty and possible important physiological implications this finding has been neglected. Here we report that PPK mRNA is expressed also in the human brain, heart, lung,

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Section: Introductionmentioning

confidence: 99%

Expression of Plasma Prekallikrein mRNA in Human Nonhepatic Tissues and Cell Lineages Suggests Special Local Functions of the Enzyme

Hermann¹,

Arnhold²,

Kresse³

et al. 1999

Biological Chemistry

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“…Cleavage of HK is required for optimal expression of its procoagulant activity in the plasmatic environment (Scott et al, 1984). The light chain of HK contains the procoagulant activity (Mandle et al, 1976), which depends in part on its ability to associate with the zymogens, PK, through residues 556-595 of HK, or FXI, through residues 556-613 (Tait & Fujikawa, 1987). The coagulant activity of HK also depends on the binding of cleaved HK (Sugo et al, 1980) to anionic surfaces.…”

mentioning

confidence: 99%

The sequence HGLGHGHEQQHGLGHGH in the light chain of high molecular weight kininogen serves as a primary structural feature for zinc‐dependent binding to an anionic surface

Dela

Colman

1992

Protein Science

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The histidine-glycine-rich region of the light chain of cleaved high molecular weight kininogen (HK) is thought to be responsible for binding to negatively charged surfaces and initiation of the intrinsic coagulation, fibrinolytic, and kinin-forming systems. However, the specifically required amino acid sequences have not been delineated. An IgG fraction of a monoclonal antibody (MAb) CllCl to the HK light chain was shown to inhibit by 66% the coagulant activity and by 57% the binding of HK to the anionic surface of kaolin at a concentration of 1.5 pM and 27 pM, respectively. Proteolytic fragments of HK were produced by successive digestion with human plasma kallikrein and factor XIa (FXIa). Those polypeptides that bound tightly (Kd = 0.77 nM) to a C11C1 affinity column were eluted at pH 3.0 and purified by membrane filtration. On 15% SDS polyacrylamide electrophoresis, the approximate M, was 7.3 kDa (range 6.2-8.1 kDa). Based on N-terminal sequencing, this polypeptide (I2), which extends from the histidine residue 459 to a lysine at position 505, 509, 51 1, 512, 515, or 520, inhibits by 50% the coagulant activity expressed by HK at a concentration of 22 pM. The synthetic peptide HGLGHGH representing the N-terminal of the l2 fragment was synthesized, tested, and found at 4 mM to inhibit the procoagulant activity of HK 50%. A synthetic heptadecapeptide, HGLGHGHEQQHGLGHGH (residues 459-475) included within the l2 fragment, and with the ability to bind zinc, inhibited 50% of the HK coagulant activity at a concentration of 325 pM in the absence and presence of added Zn2+ (30 pM). The specific binding of 12'I-HK to a negatively charged surface (kaolin) was inhibited 50% by unlabeled HK (5 pM). HGLGHGH, at a concentration of 7.0 mM, inhibited the binding to kaolin by 50%. The heptadecapeptide inhibited the specific binding of I2'I-HK to kaolin by 50%, at a concentration of 2.3 mM, in the absence of Zn2+.In contrast, when Zn2+ was added, the concentration to achieve 50% inhibition decreased to 630 pM, indicating that Zn2+ was required to attain a favorable conformation for binding. Moreover, the I, fragment was found to inhibit 50% of the I2'I-HK binding to kaolin at a concentration of 380 pM. These results suggest that residues contained within the 1, fragment, notably HGLGHGHEQQHGLGHGH, serves as a primary structural feature for binding to a negatively charged surface.

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“…However, if the HF-cleaving activity is exposed when EC or deeper layers are damaged, HF activation should occur. Furthermore, damage to the EC layer might expose subcellular structures with a sufficient density of negative charges to facilitate assembly of the surfacebound HF-high Mr kininogen-Factor XI-prekallikrein complexes similar to the one demonstrated for kaolin (12,39,40). Under these circumstances, the EC enzyme could initiate HF cleavage, an essential step for the reciprocal activation between HF and prekallikrein (41).…”

Section: Resultsmentioning

confidence: 93%

Activation of Rabbit Hageman Factor by Homogenates of Cultured Rabbit Endothelial Cells

Wiggins¹,

Loskutoff²,

Cochrane³

et al. 1980

J. Clin. Invest.

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Identification of prekallikrein and high-molecular-weight kininogen as a complex in human plasma.

Cited by 334 publications

References 21 publications

Expression of Plasma Prekallikrein mRNA in Human Nonhepatic Tissues and Cell Lineages Suggests Special Local Functions of the Enzyme

Expression of Plasma Prekallikrein mRNA in Human Nonhepatic Tissues and Cell Lineages Suggests Special Local Functions of the Enzyme

The sequence HGLGHGHEQQHGLGHGH in the light chain of high molecular weight kininogen serves as a primary structural feature for zinc‐dependent binding to an anionic surface

Activation of Rabbit Hageman Factor by Homogenates of Cultured Rabbit Endothelial Cells

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