ABSTRACT
O Angioedema Hereditário (AEH) é uma doença resultante de distúrbios nos sistemas complemento, da coagulação e calicreína-bradicinina. A doença manifesta-se por edema subcutâneo, dor abdominal e edema de laringe com morte por asfixia. Trauma, estresse e ciclo menstrual podem desencadear as crises. O AEH tipo I é descrito em 85% dos casos com níveis antigênicos e funcionais do inibidor da Cl esterase (C1-INH) reduzidos. No tipo II, o defeito é funcional com níveis de C1-INH normais. No tipo III, não existe alteração do C1-INH e associa-se a elevados níveis de estrogênio exógeno e/ou mutações no gene do fator XII da coagulação. Os níveis de C4 encontram-se reduzidos no HAE tipo I e II. A dosagem de C1q é utilizada para diferenciar o AEH dos casos adquiridos. Na profilaxia em longo prazo recomenda-se o uso de antifibrinoliticos ou andrógenos atenuados caso mais de uma crise grave ocorra ao mês e quando o tratamento para os ataques não forem eficazes ou disponíveis. Na profilaxia em curto prazo deve-se usar concentrados do C1-INH, não disponível no Brasil, substituído pelo plasma com eficácia limitada. Nas crises de AEH, o único medicamento disponível em nosso meio é o icatibanto, antagonista do receptor de bradicinina, administrado por via subcutânea. O ecalantide é um inibidor da calicreína usado nas crises também não disponível no Brasil. O AEH é uma doença subdiagnosticada que pode ser controlada evitando-se o óbito por asfixia. Novos tratamentos estão sendo disponibilizados que podem resultar numa melhor qualidade de vida dos pacientes.
Hereditary angioedema (HAE) is a disease caused by disturbs of complement, coagulation and kalikrein-bradikynin systems. The disease presents relapsing subcutaneous swelling, abdominal pain and laryngeal edema causing asphyxia. Trauma, stress and menses can precipitate the attacks. HAE Type I is described in 85% of the cases with reduced antigenic and functional levels of the C-1 esterase inhibitor (C1-INH). In Type II, the defect is functional and C1-INH levels are normal. In type III HAE, there is no impaired C1-INH but high doses of exogenous estrogens and/or mutations in Factor XII gene have been found. C4 levels are reduced in HAE Type I and II. Serum Clq is applied for differential diagnosis of acquired angioedema. Long term prophylaxis is recommended with antifibrinolytic agents or atenuated androgens whether there is more than one severe attack per month and the treatment for the attacks are nor efficacious or available. For short term prophylaxis, C1-INH concentrates should be used, however they are not available in Brazil and it is substituted by plasma with limited efficacy. During HAE attacks, the only drug available in Brasil is icatibant, a bradykinin antagonist receptor. Ecalantide is a kallikrein inhibitor to be used in attacks, not availabie in Brazil yet. Therefore, HAE is a misdiagnosed disease that may be controlled preventing the death due to asphyxia. New treatment options have been available that might result in a better quality of life within the patients.
Subject(s)
Humans , Angioedemas, Hereditary , Asphyxia , Complement Inactivator Proteins , Danazol , Esterases , Gastrointestinal Tract , Pulmonary Edema , Subcutaneous Tissue , Respiratory System/pathology , Tranexamic Acid , Methods , Patients , Methods , Diagnostic Techniques and ProceduresABSTRACT
Vaccinia virus complement control protein (VCP) was one of the first viral molecules demonstrated to have a role in blocking complement and hence in the evasion of host defense. Structurally it is very similar to the human C4b-BP and the other members of complement control protein. Functionally it is most similar to the CR1 protein. VCP blocks both major pathways of complement activation. The crystal structure of VCP was determined a little over a year ago and it is the only known structure of an intact and complete complement control protein. In addition to binding complement, VCP also binds to heparin. These two binding abilities can take place simultaneously and contribute to its many function and to its potential use in several inflammatory diseases, e.g. Alzheimer's disease (AD), CNS injury, xenotransplantation, etc. making it a truly fascinating molecule and potential drug.
Subject(s)
Complement Activation , Complement Inactivator Proteins/chemistry , Complement System Proteins/physiology , Heparin/metabolism , Humans , Immune System/physiology , Protein Binding , Receptors, Complement 3b/metabolism , Vaccinia virus/metabolism , Viral Proteins/chemistryABSTRACT
<p><b>OBJECTIVE</b>To assess complement-mediated myocardial injury on isolated guinea pig working hearts and cardioprotective effects of CD59.</p><p><b>METHODS</b>Using a modified Langendorff apparatus, isolated guinea-pig working hearts were perfused with a modified Krebs Henseleit buffer containing 3% heat-inactivated human plasma and zymosan (IPZ) (control) (n = 10), 3% normal human plasma and zymosan (NPZ) (n = 10), or 3% normal human plasma and zymosan and 1.5 microg/ml CD59 (NPZC) (n = 10), respectively. Epicardial electrocardiogram (ECG), cardiac output (CO), coronary arterial flow (CF), maximum left ventricular developed pressure (LVP(max)), maximum left ventricular developed pressure increase rate (+ dp/dt(max)), maximum left ventricular developed pressure decrease rate (- dp/dt(max)) and heart rate (HR) were recorded at 0, 15, 30, 45 and 60 min of treatment. After the experiment, immunohistochemical examination was performed to detect the presence of C3a or C5b-9 in the myocardium of the isolated hearts.</p><p><b>RESULTS</b>Compared the IPZ group, hearts treated with NPZ showed a slight depression on ST segments of epicardial ECG at 15 min, a significant elevation between 30 min to 60 min, a decrease in CF, CO, LVP(max), + dp/dt(max) and - dp/dt(max), and an increase in HR at 15 min. The observed alterations in CF, CO, LVP(max), + dp/dt(max) and - dp/dt(max) remained decreased, while the HR remained increased until the end of the protocol. The all above parameters of hearts treated with NPZC were similar to the control group (IPZ) at any given time. Immunohistochemical examination showed positive signals of C3a and C5b-9 in the myocardium of hearts treated with NPZ. C3a was positive in NPZC, and C3a and C5b-9 were negative in IPZ.</p><p><b>CONCLUSIONS</b>Activated human complements directly damage isolated guinea pig working hearts, and CD59 offers a significant protection against the injuries.</p>