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Symptom
Drug
Enzyme
Compound
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Query: EC:3.4.15.1 (
ACE
)
18,300
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Angioneurotic edema can involve the face and mucous membranes and can progress toward laryngeal obstruction and death.
ACE
inhibitors are the main etiology, followed by the hereditary forms and the acquired forms. Quantitative and qualitative measurements of C1 inhibitors are important to differentiate the common form of
HAE
from the variant form. Long-term therapy is based upon antifibrinolytics and androgen therapy. Fresh frozen plasma can be given for short-term therapy. Treatment of the acute attack is mainly supportive directed toward airway protection. Epinephrine, steroids, and antihistamine have not been proven to be efficacious.
...
PMID:Angioneurotic edema. 905 26
Angiotensin-converting enzyme (ACE) inhibitor associated angioedema was detected in 39 subjects (17%) of 231 consecutive patients examined in the last 5 years at our out-patient clinic for symptoms of angioedema without urticaria. In these patients, angioedema was most commonly localized to the face. The duration of ACE-inhibitor treatment at the onset of angioedema ranged from 1 day to 8 years with a median of 6 months. The time elapsed between onset of angioedema and withdrawal of ACE-inhibitor ranged from 1 day to 10 years with a median of 10 months. Delayed diagnosis is explained by the unusual characteristics of this adverse reaction: angioedema may start years after beginning the treatment and then it recurs irregularly. In fact, ACE-inhibitors seem to facilitate angioedema in predisposed subjects, rather than causing it with an allergic or idiosyncratic mechanism. Thus, while Cl-inhibitor levels are usually normal in subjects developing ACE-inhibitor-dependent angioedema, we found that ACE-inhibitors caused angioedema in Cl-inhibitor-deficient patients. Because the main inactivator of bradykinin is
kininase II
, which is identical with ACE, it is believed that bradykinin mediates ACE-inhibitor-dependent angioedema. We had the possibility to examine the plasma bradykinin levels in one ACE-inhibitor-treated patient during an angioedema attack and we found very high levels, but we did not find an increase of break-down products of high-molecular-weight-kininogen as observed during acute attacks in
hereditary angioedema
. Bradykinin fell to normal levels during remission after withdrawal of the drug. These observations indicate that in ACE-inhibitor-induced angioedema, contrary to
hereditary angioedema
, the reduction of bradykinin catabolic rate plays a predominant role.
...
PMID:Angioedema due to angiotensin-converting enzyme inhibitors. 1060 20
Congenital C1-inhibitor deficiency, or
hereditary angioneurotic edema
(
HAE
), is a rare autosomal dominant disease due to alterations in the C1 inhibitor gene that results in a deficiency of antigenic and/or functional C1-INH. Affected patients are heterozygous, and their deficiency is incomplete, many of them having up to 20% of the normal amount of the inhibitor. The disease is characterised by recurrent, circumscribed, non-pitting, and non-pruritic subepithelial swellings of sudden onset, which fade during the course of 48-72 hours, but can persist up to 1 week. Lesions can be solitary or multiple and primarily involve the extremities, larynx, face, and bowel wall. Bradykinin is believed to be the main, but certainly not the sole, mediator responsible for the bouts of edema in
HAE
. The diagnosis is suggested by family history, the lack of accompanying pruritus or urticaria, the presence of recurrent gastrointestinal attacks of colics, and episodes of laryngeal edema. Diminished C4 concentrations during symptomatic periods are highly suggestive for the diagnosis. Further laboratory diagnosis depends on demonstrating a deficiency of C1-INH antigen (type I) in most kindreds, but some kindreds have an antigenically intact but dysfunctional protein (type II) and require a functional assay to establish the diagnosis. Prophylactic administration of either attenuated androgens or protease inhibitors has proved useful in reducing frequency or severity of attacks. Infusions of a vapour-heated C1-INH concentrate are safe and effective means of both preventing and treating attacks. Nevertheless, this treatment is expensive and this extract is not readily available. It is emphasised that administration of
angiotensin converting enzyme
inhibitors is contraindicated in patients suffering from protease inhibitor deficiency states.
...
PMID:Hereditary angioneurotic edema: review of the literature. 1078 4
Bradykinin is a major mediator of swelling in
C1 inhibitor deficiency
as well as the angioedema seen with
ACE
inhibitors and may contribute to bronchial hyperreactivity in asthma. Formation of bradykinin occurs in the fluid phase and along cell surfaces requiring interaction of factor XII, prekallikrein, and high M(r) kininogen (HK). Recent data suggest that activation of the kinin-forming cascade can occur on the surface of endothelial cells, even in the absence of factor XII. We sought to further define this factor XII-independent mechanism of kinin formation. Both cytosolic and membrane fractions from endothelial cells possessed the ability to catalyze prekallikrein conversion to kallikrein, and activation depended on the presence of HK and zinc ion. We fractionated the cytosol by ion exchange chromatography and affinity chromatography by using corn trypsin inhibitor as ligand. The fractions with peak activity were subjected to SDS gel electrophoresis and ligand blot with biotinylated corn trypsin inhibitor, and positive bands were sequenced. Heat shock protein 90 (Hsp90) was identified as the protein responsible for zinc-dependent prekallikrein activation in the presence of HK. Zinc-dependent activation of the prekallikrein-HK complex also depended on addition of either alpha and beta isoforms of Hsp90 and the activation on endothelial cells was inhibited on addition of polyclonal Ab to Hsp90 in a dose-dependent manner. Although the mechanism by which Hsp90 activates the kinin-forming cascade is not understood, this protein represents the cellular contribution to the reaction and may become the dominant mechanism in pathologic circumstances in which Hsp90 is highly expressed or secreted.
...
PMID:Heat shock protein 90 catalyzes activation of the prekallikrein-kininogen complex in the absence of factor XII. 1179 53
Bradykinin is a major mediator of swelling in
C1 inhibitor deficiency
as well as the angioedema seen with
ACE
inhibitors and may contribute to bronchial hyper-reactivity in asthma. Formation of bradykinin occurs in the fluid phase and along cell surfaces requiring interaction of Factor XII, prekallikrein and high molecular weight kininogen (HK). The mechanism by which initiation occurs is uncertain. Recent data suggest that activation of the kinin-forming cascade can occur on the surface of endothelial cells, even in the absence of Factor XII. We demonstrate herein that during a 2-h incubation time, plasma deficient in either Factor XII or high molecular weight kininogen (HK) fail to activate kinin-forming cascade as compared to normal plasma. With more prolonged incubation, Factor XII deficient plasma gradually activates and HK deficient plasma does not. Our data support both Factor XII-dependent (rapid) and Factor XII-independent (slow) mechanisms; the latter may require a cell-derived protein (possibly protease) to activate prekallikrein in the presence of zinc ion and HK. To further define this cellular factor, we demonstrated that both cytosolic and membrane fractions from endothelial cells possessed the ability to catalyze prekallikrein conversion to kallikrein in the presence of HK and zinc ion. We purified this factor from cytosol by affinity chromatography employing corn trypsin inhibitor (CTI) as ligand. The fractions with peak activity were subjected to SDS-PAGE analysis, ligand blotted with biotinylated CTI, and positive bands were sequenced. Heat shock protein 90 (Hsp90) was identified as one of the proteins. Zinc-dependent activation of the prekallikrein-HK complex on endothelial cells was inhibited upon the addition of polyclonal antibody to Hsp90 in a dose-dependent manner. Although the mechanism by which Hsp90 activates the kinin-forming cascade is not yet clear, this protein represents the cellular contribution to the reaction and may become the dominant mechanism in pathologic circumstances in which Hsp90 is highly expressed or secreted.
...
PMID:Activation of the bradykinin-forming cascade on endothelial cells: a role for heat shock protein 90. 1248 99
The plasma kinin-forming cascade can be activated by contact with negatively charged macromolecules leading to binding and autoactivation of factor XII, activation of prekallikrein to kallikrein by factor XIIa, and cleavage of high molecular weight kininogen (HK) by kallikrein to release the vasoactive peptide bradykinin. Once kallikrein formation begins, there is rapid cleavage of unactivated factor XII to factor XIIa, and this positive feedback is favored kinetically over factor XII autoactivation. Examples of surface initiators that can function in this fashion are endotoxin, sulfated mucopolysaccharides, and aggregated Abeta protein. Physiological activation appears to occur along the surface of endothelial cells both by the aforementioned contact-initiated reactions as well as bypass pathways that are independent of factor XII. Factor XII binds primarily to cell surface u-PAR (urokinase plasminogen activator receptor); HK binds to gC1qR via its light chain (domain 5) and to cytokeratin 1 by its heavy chain (domain 3) and, to a lesser degree, by its light chain. Prekallikrein circulates bound to HK (as does coagulation factor XI), and prekallikrein is thereby brought to the surface as HK binds. All cell-binding reactions are dependent on zinc ion. Endothelial cells (HUVECs) have bimolecular complexes of u-PAR-cytokeratin 1 and gC1qR-cytokeratin 1 at the cell surface plus free gC1qR, which is present in substantial molar excess. Factor XII appears to interact primarily with the u-PAR-cytokeratin 1 complex, whereas HK binds primarily to the gC1qR-cytokeratin 1 complex and to free gC1qR. Release of endothelial cell heat shock protein 90 (Hsp90) or the enzyme prolylcarboxypeptidase leads to activation of the bradykinin-forming cascade by activating the prekallikrein-HK complex. In contrast to factor XIIa, neither will activate prekallikrein in the absence of HK, both reactions require zinc ion, and the stoichiometry suggests interaction of one molecule of Hsp90 (for example) with one molecule of prekallikrein-HK complex. The presence of factor XII, however, leads to a marked augmentation in reaction rate via the kallikrein feedback as well as to a change to classic enzyme-substrate kinetics. The circumstances in which activation is initiated by factor XII autoactivation or by these factor XII bypasses are yet to be defined. The pathologic conditions in which bradykinin generation appears important include hereditary and acquired
C1 inhibitor deficiency
, cough and angioedema due to
ACE
inhibitors, endotoxin shock, with contributions to conditions as diverse as Alzheimer's disease, stroke, control of blood pressure, and allergic diseases.
...
PMID:Formation of bradykinin: a major contributor to the innate inflammatory response. 1570 22
Non-allergic angio-oedema is a potentially life-threatening condition typically seen in patients with hereditary or acquired angio-oedema caused by
C1 inhibitor deficiency
or an adverse drug reaction to
angiotensin converting enzyme
inhibitors. We report a case of sudden angio-oedema in a patient who developed severe swelling of the tongue and neck after routine extubation requiring resuscitative re-intubation. The oedema was refractory to conventional allergy treatment. Shortly thereafter, the patient was treated with fresh frozen plasma, and within a few hours his condition improved, allowing extubation. Familial history and exposure to potentially angio-oedema causative drugs were not evident. The serum complement status was normal, and no IgE sensitisation was detected. We therefore concluded that the patient was suffering from idiopathic non-histaminergic angio-oedema. To our knowledge, this is the first reported case of an acute, life-threatening attack of idiopathic non-histaminergic angio-oedema that was successfully treated with fresh frozen plasma.
...
PMID:Idiopathic non-histaminergic angio-oedema after routine extubation successfully treated with fresh frozen plasma. 1679 17
C1 esterase inhibitor deficiency
is an unusual cause of acute upper airway angioedema. This case of angioedema is secondary to acquired
C1 esterase inhibitor deficiency
associated with neoplastic disease and triggered by the use of
angiotensin converting enzyme
inhibitors. It was sufficiently severe to require emergency airway management. A guide to the evaluation and management of angioedema is presented.
...
PMID:Acute upper airway obstruction from acquired angioedema. 1730 64
Angioedema can be a symptom of anaphylaxis; it may be more hazardous that the circulatory collapse in otherwise healthy patients. Angioedema can be part of IgE- and histamine-mediated allergic reactions or part of NSAID-induced hypersensitivity with disturbances in arachidonic acid metabolism. If angioedema occurs without urticaria or other symptoms of anaphylaxis, it is usually mediated by increased bradykinin synthesis (
HANE
, EANE) or reduced metabolism (
ACE
inhibitors). These observations have led to new therapeutic approaches in
HANE
. Icatibant is a bradykinin-receptor-2 antagonist and blocks bradykinin-induced angioedema in
HANE
. How applicable this will be to
ACE
-inhibitor angioedema remains to be seen.
...
PMID:[Angioedema]. 1800 29
The plasma kallikrein-kinin system (KKS) plays a critical role in human physiology. The KKS encompasses coagulation factor XII (FXII), the complex of prekallikrein (PK) and high molecular weight kininogen (HK). The conversion of plasma prekallikrein to kallikrein by the activated FXII and in response to numerous different stimuli leads to the generation of bradykinin (BK) and activated HK (HKa, an antiangiogenic peptide). BK is a proinflammatory peptide, a pain mediator and potent vasodilator, leading to robust accumulation of fluid in the interstitium. Systemic production of BK, HKa with the interplay between BK bound-BK receptors and the soluble form of HKa are key to angiogenesis and hemodynamics. KKS has been implicated in the pathogenesis of inflammation, hypertension, endotoxemia, and coagulopathy. In all these cases increased BK levels is the hallmark. In some cases, the persistent production of BK due to the deficiency of the blood protein C1-inhibitor, which controls FXII, is detrimental to the survival of the patients with
hereditary angioedema
(
HAE
). In others, the inability of
angiotensin converting enzyme
(
ACE
) to degrade BK leads to elevated BK levels and edema in patients on
ACE
inhibitors. Thus, the mechanisms that interfere with BK liberation or degradation would lead to blood pressure dysfunction. In contrast, anti-kallikrein treatment could have adverse effects in hemodynamic changes induced by vasoconstrictor agents. Genetic models of kallikrein deficiency are needed to evaluate the quantitative role of kallikrein and to validate whether strategies designed to activate or inhibit kallikrein may be important for regulating whole-body BK sensitivity.
...
PMID:Human plasma kallikrein-kinin system: physiological and biochemical parameters. 1968 62
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