ライフサイエンスコーパス: plasma kallikrein

1 ient to meet target levels for inhibition of plasma kallikrein.

2 ors that are selective either for or against plasma kallikrein.

3 dimensional views of the catalytic domain of plasma kallikrein.

4 tivity for factor Xa relative to trypsin and plasma kallikrein.

5 binant granzyme A, human thrombin, and human plasma kallikrein.

6 ariants (SMTR/S and SLLR/S) strongly inhibit plasma kallikrein, activated FXII, and plasmin.

7 propose that blocking the B2R and inhibiting plasma kallikrein activity might have an ameliorating ef

8 ll tolerated and led to rapid suppression of plasma kallikrein activity, resulting in increased time

9 ls) for expression of the protease domain of plasma kallikrein, along with the purification and high

10 Plasma kallikrein amplifies FXII activation, and its def

11 We determined the relationship between plasma kallikrein and cardiovascular disease (CVD) outco

12 ection from ex vivo stimulated generation of plasma kallikrein and cleavage of high-molecular-weight

13 teases we identified two new HGF activators, plasma kallikrein and coagulation factor XIa (FXIa).

14 f both arms of the system as a substrate for plasma kallikrein and critical cofactor, which forms int

15 In conclusion, the ability of plasma kallikrein and FXIa to activate pro-HGF in vitro

16 the biochemical and enzymatic properties of plasma kallikrein and paves the way for structure-based

17 I-W268R is highly sensitive to activation by plasma kallikrein and plasmin, compared with FXII-WT or

18 We find that HGFA, matriptase, hepsin, plasma kallikrein and trypsin are potently inhibited, an

19 ay inhibitor-2 (TFPI-2) inhibits factor XIa, plasma kallikrein, and factor VIIa/tissue factor; accord

20 is an important inhibitor of complement C1, plasma kallikrein, and factor XIIa, and as such is invol

21 shares high sequence identity with acrosin, plasma kallikrein, and hepsin.

22 oblotting revealed activation of factor XII, plasma kallikrein, and kininogen during the acute phase

23 from the cloned cDNA and inhibited trypsin, plasma kallikrein, and plasmin with IC50 values in the n

24 Thrombin, factor Xa, plasmin, urokinase, plasma kallikrein, and tissue kallikrein had no effect.

25 p-regulated the expression of kallikrein and plasma kallikrein B genes.

26 Plasma kallikrein bound to HK cleaves prourokinase to ur

27 min, trypsin, chymotrypsin, cathepsin G, and plasma kallikrein but not urokinase-type plasminogen act

28 thrombin and potentiating the inhibition of plasma kallikrein by antithrombin.

29 Inhibition of plasma kallikrein by EPI-KAL2 and 13G11 significantly su

30 MPO and HK on cells such that MPO masked the plasma kallikrein cleavage site on HK, and MPO-generated

31 nner and (2) a noncanonical pathway in which plasma kallikrein directly activates FIX, which ultimate

32 In transfected HEK293 cells, we find that plasma kallikrein directly activates G protein-coupled p

33 ions at doses >/=400 mg q8 h met or exceeded plasma kallikrein EC50 values throughout the dosing inte

34 the only inhibitory domain, and it inhibits plasma kallikrein, factor XIa, and plasmin.

35 dy of serum scuPAR levels identified a human plasma kallikrein gene (KLKB1) promoter polymorphism (rs

36 sequence repeat polymorphisms for the human plasma kallikrein gene (KLKB1; previously known as KLK3)

37 Like the rat plasma kallikrein gene and the closely related human fac

38 MP-1 levels through the action of plasmin or plasma kallikrein (generated from their added zymogens).

39 ble swelling episodes caused by uncontrolled plasma kallikrein generation and excessive bradykinin re

40 The production of BK from HK by plasma kallikrein has been implicated in the pathogenesi

41 Although plasma kallikrein has been purified for 40 years, its st

42 bolytic zymogens plasminogen, urokinase, and plasma kallikrein have all been shown to cleave and acti

43 n or pharmacologic inhibition of factor XII, plasma kallikrein, high-molecular-weight kininogen, or t

44 on was found for plasmin (IC50 = 399 nm) and plasma kallikrein (IC50 = 686 nm).

45 BCX7353) is an oral, once-daily inhibitor of plasma kallikrein in development for the prophylaxis of

46 A critical role for plasma kallikrein in the pathogenesis of autoantibody-in

47 ontact pathway: factor XIa, factor XIIa, and plasma kallikrein, in the presence and absence of high m

48 ntravenous human C1INH, with a Kunitz domain plasma kallikrein inhibitor (DX88), and with a bradykini

49 The role of plasma KKS was examined using a plasma kallikrein inhibitor (EPI-KAL2) and an antikallik

50 apse following treatment with ecallantide, a plasma kallikrein inhibitor approved for HAE attack trea

51 Berotralstat (BCX-7353) is a potent plasma kallikrein inhibitor developed to prevent heredit

52 Using the selective plasma kallikrein inhibitor P8720, we investigate whethe

53 s those for the investigational agents, oral plasma kallikrein inhibitor sebetralstat and oral bradyk

54 -guided drug design strategy) is a synthetic plasma kallikrein inhibitor that is potent and highly se

55 Avoralstat is a potent small-molecule oral plasma kallikrein inhibitor under development for treatm

56 nsions from 4 different therapeutic classes (plasma kallikrein inhibitor, receptor tyrosine kinase in

57 We aimed to assess the novel oral plasma kallikrein inhibitor, sebetralstat, which is in d

58 evidence has shown that potent and selective plasma kallikrein inhibitors that block the generation o

59 Plasma kallikrein is a serine protease that has many imp

60 human tissue kallikrein (Ki = 0.1 nM), human plasma kallikrein (Ki = 0.3 nM) and human factor XIa (Ki

61 The plasma kallikrein-kinin system (KKS) consists of serine

62 ws that monoclonal antibody C11C1 attenuates plasma kallikrein-kinin system activation, local and sys

63 ctions between MPO and the components of the plasma kallikrein-kinin system resulted in decreased bra

64 ays an important role in the assembly of the plasma kallikrein-kinin system.

65 otein for the assembly of the vasoregulatory plasma kallikrein-kinin system; thus we explored whether

66 athway for thrombosis risk reduction via the plasma kallikrein/kinin and renin angiotensin systems.

67 r physiologic assembly and activation of the plasma kallikrein/kinin system and discusses its influen

68 The relevance and significance of the plasma kallikrein/kinin system as a risk factor for the

69 Here, we identify plasma kallikrein (KK) as a specific direct modulator of

70 ting enzyme 2 (ACE-2), neprilysin (NEP), and plasma kallikrein (KLKB1) cleave and inactivate it, with

71 ypeptidase (PRCP) activates prekallikrein to plasma kallikrein, leading to bradykinin liberation, and

72 These novel findings indicate that plasma kallikrein level associates with the risk of any

73 The association between plasma kallikrein levels and the risk of any CVD remaine

74 sion models assessed the association between plasma kallikrein levels and the risk of CVD.

75 d to robust and sustained reduction in total plasma kallikrein levels in patients with hereditary ang

76 In unadjusted models, higher plasma kallikrein levels were associated with higher ris

77 For MACE, higher plasma kallikrein levels were associated with higher ris

78 Plasma kallikrein levels were measured longitudinally in

79 e-dependent, and durable reductions in total plasma kallikrein levels, and no severe adverse events w

80 and human recombinant tissue kallikrein and plasma kallikrein on [Ca(2+)](i) mobilization and [(3)H]

81 ence of prekallikrein (PK), the proenzyme of plasma kallikrein, on vascular endothelial cells is not

82 rted to FXIIa (activated factor XII) by PKa (plasma kallikrein) or its unique ability to autoactivate

83 WT, the KD1-L17R did not inhibit factor XIa, plasma kallikrein, or factor VIIa/tissue factor.

84 mer (p < 0.0001), P-selectin (p < 0.05), and plasma kallikrein (p < 0.001).

85 o [HR] = 1.16 per 20 nmol/L higher levels of plasma kallikrein; P = 0.0177) as well as over the EDIC-

86 Plasma kallikrein (PK) cleaves high-molecular-weight kin

87 Plasma kallikrein (PK) has been identified in vitreous f

88 t this augmented expansion is ameliorated by plasma kallikrein (PK) inhibition or deficiency.

89 Intravitreal injections of autologous blood, plasma kallikrein (PK), bradykinin, and collagenase were

90 itary angioedema are attributed to excessive plasma kallikrein (PKa) activity, which cleaves high-mol

91 of swelling and pain caused by uncontrolled plasma kallikrein (PKa) activity.

92 ding to increased generation of the protease plasma kallikrein (PKa) and excessive release of the nan

93 hibitor, the main regulator of the proteases plasma kallikrein (PKa) and factor XIIa (FXIIa).

94 HAE is associated with uncontrolled plasma kallikrein (PKa) enzyme activity and generation o

95 -affinity, high-specificity binders to human plasma kallikrein (pKAL) and human thrombin (THBN) can b

96 Although plasma kallikrein (PKal) has been implicated in contribu

97 Plasma kallikrein (pKal) proteolytically cleaves high mo

98 tissue-type plasminogen activator (tPA), and plasma kallikrein (PKal).

99 was demonstrated against the serine protease plasma kallikrein (Pkal).

100 In addition, formed plasma kallikrein promotes single-chain urokinase activa

101 or high-molecular-weight kininogen, but not plasma kallikrein, protected mice from prostasome-induce

102 Dose-dependent reductions in the total plasma kallikrein protein level were observed between ba

103 ics (i.e., the change from baseline in total plasma kallikrein protein level); exploratory end points

104 The mean percent change in total plasma kallikrein protein levels from baseline to week 1

105 regulate the catalytic activity of FXIa and plasma kallikrein, respectively, despite the inability t

106 cleavage of FXI and PK to generate FXIa and plasma kallikrein, respectively.

107 Cleavage of HK by plasma kallikrein results in release of the nonapeptide

108 ere susceptible to activation by plasmin and plasma kallikrein, they were ineffective in supporting a

109 ecular-weight kininogen can be hydrolysed by plasma kallikrein to bradykinin and cleaved high-molecul

110 rine proteases (thrombin, tPA, FXa, plasmin, plasma kallikrein, trypsin, FVIIa).

111 Inhibition of plasma kallikrein was observed at all doses, and the deg

112 a contact system leads to elevated levels of plasma kallikrein, which cleaves high molecular weight k

113 Activated factor XII generates plasma kallikrein, which proteolyzes kininogen, leading

114 e relatively open active site of plasmin and plasma kallikrein, while it is rejected from sterically

115 -triazole derivative 10 inhibits plasmin and plasma kallikrein with K(i) of 0.77 and 2.4 nM, respecti

116 ic inhibition of PRCP with Z-Pro-Prolinal or plasma kallikrein with soybean trypsin inhibitor, Pro-Ph