EC:3.4.15.1 - FACTA Search

Gene/Protein Disease 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)

Angio-oedema as an adverse effect of angiotensin converting enzyme-inhibitors (ACE-inhibitors) is reported to occur in one to two of 1,000 treated patients per year. This estimate may be too low, since the swelling of face, lips, tongue and throat is very often attributed to food allergy. Furthermore, attacks of oedema may occur after months or even years of ACE-inhibitor treatment, thereby obscuring the link to the medication. This adverse effect is non-immunogenic. The oedema is explained by local enhancement of bradykinin, which under normal circumstances is broken down by angiotensin converting enzyme. The question of what makes some people vulnerable is still unsolved. The oedema can develop quickly and may lead to suffocation. In many cases, conventional antiallergic treatment in the form of steroids, antihistamines and epinephrine has inadequate effect. Intubation of the larynx may be necessary, but can be extremely difficult in the case of massive glassy oedema. Involvement of the neck can sometimes hinder tracheotomy, making early intervention essential. The authors describe two patients with moderate swellings, and discuss a potential, yet experimental, use of C1-inhibitor concentrate in the treatment of ACE-inhibitor provoked angioedema.
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PMID:[Angioedema associated with ACE inhibitors]. 800 99

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.
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PMID:Angioneurotic edema. 905 26

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.
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PMID:Hereditary angioneurotic edema: review of the literature. 1078 4

Proteins of the plasma kinin-forming cascade bind to endothelial cells and activation of the cascade can be initiated along the surface. The light chain of high molecular weight kininogen (HK) (domain 5) and factor XII bind to gC1qR, the heavy chain of HK (domain 3) binds to cytokeratin 1 and the interactions are zinc dependent. Prekallikrein binds to domain 6 of HK. Antisera to gC1qR and cytokeratin 1 inhibit binding and activation. Incubation of normal plasma with endothelial cells leads to gradual conversion of prekallikrein to kallikrein, while plasma deficient in factor XII or HK are inactive within a 2-hour time frame. Thus factor XII is critical for activation to proceed. Augmentation of these reactions may occur when C1 inhibitor is functionally deficient or with ACE inhibitors which also inhibit kininases.
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PMID:Activation of the plasma kinin forming cascade along cell surfaces. 1130 9

Angio-oedema are often massive but temporary swellings of the soft tissue of the face or the throat, which can also affect other regions of the human body (e.g. the skin or internal organs). An oedema of the face and throat represents a life-threatening situation. Apart from the clinical condition of the patient and detailed knowledge of the medical history (incl. medical applications), the treatment should depend on the different pathogenesis. In this reported case, we describe the severe clinical development of an angio-oedema under a long-term treatment with an ACE-inhibitor, which in the end was only successfully treated with the application of a C1 inhibitor concentrate.
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PMID:[C1-esterase inhibitor in ACE inhibitor-induced severe angioedema of the tongue]. 1171 30

Angioedema has different causes and different clinical presentations. Some types of angioedema may be mediated by bradykinin. We measured plasma levels of bradykinin-(1-9)nonapeptide by radioimmunoassay after high-performance liquid chromatography in patients with different types of angioedema during acute attacks and/or in remission, i.e. hereditary C1-inhibitor deficiency, angiotensin converting enzyme (ACE) inhibitor treatment, idiopathic non histaminergic and responders to antihistamines. Eleven patients with the deficiency of C1-inhibitor had very high levels of bradykinin during acute attacks of angioedema (18.0-90.0 pM) (normal range 0.2-7.1 pM). In three patients with history of ACE inhibitor-related angioedema, plasma bradykinin was high during ACE inhibitor treatment (62.0, 8.9 and 27.0 pM) and in a fourth patient was 47.0 pM during an acute attack and decreased by 93% to 3.2 pM after withdrawal of the ACE inhibitor. The patient with idiopathic angioedema, during an acute attack involving the right arm, had high levels of bradykinin in the venous blood refluent from the angioedematous arm (20.0 pM) while in the contralateral arm bradykinin levels were normal (6.6 pM), similarly to what we previously observed in cases of brachial angioedema due to C1-inhibitor deficiency. The four patients with angioedema responsive to antihistamines had normal levels of bradykinin even during acute attacks (5.7, 3.4, 4.7 and 1.2 pM). In one of these patients who had a brachial angioedema, bradykinin levels were normal in the venous blood refluent from both arms. Bradykinin is involved in hereditary C1-inhibitor deficiency angioedema, in ACE inhibitor-related angioedema, and in idiopathic non-histaminergic angioedema, while bradykinin is not related to allergen-dependent or idiopathic angioedema that are responsive to antihistamines.
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PMID:Bradykinin and the pathophysiology of angioedema. 1263 8

Angioneurotic orolingual edema associated with the use of rt-PA (recombinant tissue plasminogen activator) for systemic thrombolysis are described in the literature, but only as isolated case reports. Strangely, the rate of anaphylactic reactions to rt-PA is higher (1.9%) when they are used in the treatment of acute stroke than when they are given to treat acute myocardial infarction (0.02%). Patients who are taking ACE inhibitors seem to be at increased risk of such a potentially life-threatening event. We now report on two patients, in each of whom asymmetric angioneurotic edema was observed following successful thrombolysis with rt-PA. Both these patients were taking ACE inhibitors. It was possible to avoid intubation and ventilation in both cases. Therapy with ranitidine, clemastine, and a C1 esterase inhibitor resulted in the resolution of symptomatic angioneurotic edema within hours.
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PMID:[Angioneurotic orolingual edema associated with the use of rt-PA following a stroke]. 1769 90

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.
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PMID:[Angioedema]. 1800 29

Angioedema is a frequent disorder with multiple aetiologies. Angioedemas associated with urticaria are usually caused by histamine release and respond to anti-histamines and adrenalin. They include allergic angioedemas, anaphylactoid reactions (mostly drug-induced, e.g. NSAID), physical angioedemas and recurrent idiopathic angioedema. Bradykinin probably plays a causative role in the pathogenesis of ACE-inhibitor or angiotensin II receptor blocker related angioedemas, as well as in the pathogenesis of the rare hereditary or acquired C1-inhibitor deficiency angioedemas. Urticaria is then typically absent and anti-histamines, as well as adrenalin, are ineffective.
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PMID:[The multiple etiologies of angioedema]. 1855 32

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.
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PMID:Human plasma kallikrein-kinin system: physiological and biochemical parameters. 1968 62

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