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Target Concepts:
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Query: EC:3.4.23.15 (
renin
)
35,795
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Inactive
renin
in normal plasma,
Factor XII
-deficient plasma and prekallikrein-deficient plasma was fully activated by dialysis to pH 3.0 for 24 hours at 4 degrees C. This activation was reversed after neutralization and incubation of the plasma at 37 degrees C. The reversible activation-inactivation was not affected by the presence of soya bean trypsin inhibitor. If acidified normal plasma was neutralized and stood at 4 degrees C, plasma kallikrein, but not plasmin, was generated. This rendered the initial acid-activation irreversible. Since no kallikrein was generated in the deficient plasmas, the acid-activation was reversible in these plasmas even after neutralization and standing at 4 degrees C. Thus the apparent activation of inactive
renin
by kallikrein in acidified, neutralized plasma is not a direct action by the serine protease on inactive
renin
but a two-stage process in which the inactive
renin
is first fully activated by acid treatment and the reverse reaction is prevented by plasma kallikrein.
...
PMID:The reversible activation of inactive renin in human plasma: role of acid and of plasma kallikrein and plasmin. 621 88
Acid-pretreated normal human plasma generates
renin
activity at 0 degree C and neutral pH by the activation of prorenin. The activation is caused by kallikrein generated from prekallikrein by activated factor XII. Nonacidified plasma also generates
renin
at 0 degree C, but at a lower rate (cold-promoted activation). In normal plasma, 14% +/- 1% of prorenin (mean +/- SEM, n = 30) was activated during incubation at 0 degree C for 7 days (range 6% to 26%). Cold-promoted activation of prorenin was within the normal range in plasma deficient in factor XI, X, IX, VIIIC, VII, V, prothrombin, or high mol wt kininogen. Cold-promoted activation of prorenin was less than or equal to 1% in plasma deficient in factor XII or prekallikrein. Reconstitution of these plasmas with highly purified factor XII or prekallikrein restored normal prorenin activation. Correction of high mol wt kininogen deficiency had no effect. Thus cold-promoted activation of prorenin depends on the presence of factor XII and prekallikrein, whereas the other clotting factors are not essential. The influence of the inhibitors C1 esterase-inhibitor, alpha 2-macroglobulin, antithrombin III, and alpha 1-antitrypsin on the activation of prorenin was studied in factor XII-deficient plasma from which one or more of these inhibitors had been selectively removed by immunoadsorption.
Factor XII
was subsequently added, and the generation of
renin
at 37 degrees C was observed after complete factor XII-high mol wt kininogen-mediated activation of prekallikrein induced by dextran sulfate. No activation of prorenin was observed at 37 degrees C after depletion of C1 esterase inhibitor, alpha 2-macroglobulin, antithrombin III, or alpha 1-antitrypsin. When prekallikrein was activated in plasma depleted of both C1 esterase-inhibitor and alpha 2-macroglobulin, 6% of prorenin was activated in 2 hours at 37 degrees C. After additional depletion of antithrombin III, the activation increased to 47%. These results indicate that the contact activation system is capable of activating prorenin in plasma at physiologic pH and temperature when the three most important kallikrein inhibitors, C1 esterase-inhibitor, alpha 2-macroglobulin, and antithrombin III, are absent.
...
PMID:Prorenin-renin conversion by the contact activation system in human plasma: role of plasma protease inhibitors. 636 96
It has been suggested that a
Factor XII
-plasma Prekallikrein dependent pathway might play an important role in the activation of inactive
renin
. Since Captopril has the potential to affect the kinin-kallikrein system, we have studied in a group of 16 patients with essential hypertension its acute effect both on the levels of active, inactive and total
renin
, and on the contact phase of the coagulation system. Our results show that a single dose of Captopril (25 mg) induces a rapid and persistent increase of active and total
renin
, while inactive
renin
tends to decrease. Together with blood pressure, plasma Prekallikrein(PK),
Factor XII
(FXII) and Factor XI(FXI) concomitantly decrease, although not significantly, and their values seem to return to basal levels soonafter. However, no correlation was found at any time between the levels of any of these coagulation factors, including PK, and those of inactive, active or the ratio inactive/total
renin
. In spite of that, it is still possible that an activation of PK, which is likely to occur under Captopril administration, may affect at least the conversion of vessel-bound prorenin rather than the circulating form.
...
PMID:Effect of captopril on inactive renin and contact phase of coagulation system. 675 6
A new hypothesis is presented on the function of factor XII, which is postulated to be a "missing link" between acute stress and transient hypercoagulability. The implications of this idea are developed to show how chronic stress, which involves activation of hypertension and migraine as well as hypercoagulability, can cause of cerebrovascular disease. "Acute stress" is defined as "the normal short-term physiological response to the perception of major threats or demands". "Chronic stress" is "the abnormal ongoing physiological response to the continuing perception of unresolvable major threats or demands". The factor XII hypothesis is as follows: Acute stress includes release of epinephrine by the adrenal medulla. Epinephrine activates platelets by binding to alpha-2A adrenergic receptors. Activated platelets convert pre-bound factor XII to its active form, which then initiates the intrinsic coagulation cascade. This can be called the "activated platelet initiation pathway" for coagulation. Neither tissue factor nor pre-formed thrombin is required. Thrombosis proceeds to completion, but only a minute amount of thrombin is formed, and the process normally stops at this point. In people who lapse into a state of chronic stress, essential hypertension, which is also a manifestation of stress, synergizes with hypercoagulability: there is both a baseline rise in blood pressure and systemic platelet activation as well as superimposed labile rises of both. Upregulation of these two stress parameters is atherogenic: epinephrine-activated platelets stimulating thrombin formation interact with endothelial cells activated by angiotensin II to cause, first, smooth muscle cell proliferation, which is a histological hallmark of atherosclerosis, and, lastly, a symptomatic thrombotic occlusion-the stroke. The migraine symptoms which often accompany this process are a marker of chronic stress and ongoing pathophysiologic damage. Therapeutic predictions are made regarding novel ways of blocking stress-induced hypercoagulability and hypertension. Hypercoagulability could be targeted by monoclonal antibodies directed against the platelet-specific alpha-2 adrenergic receptor or the (putative) platelet receptor for
Factor XII
; hypertension could be treated with monoclonal antibodies directed against the beta-adrenergic receptor in the juxtaglomerular apparatus or by surgical denervation of the kidneys, either of which would decrease the
renin
release which helps drive the hypertension.
...
PMID:Factor XII (Hageman factor) is a missing link between stress and hypercoagulability and plays an important role in the pathophysiology of ischemic stroke. 1675 26
