Bradykinin receptor participates in doxorubicin-induced cardiotoxicity by modulating iNOS signal pathway.

Doxorubicin (DOX), an effective and broad-spectrum anthracycline antibiotic, is widely used in the treatment of numerous malignancies. However, dose-dependent cardiotoxicity limits the clinical application of DOX, and the molecular mechanisms are still unknown. In this study, we used the BK receptor B1/B2 double-knockout (B1B2 -/- ) mice to observe the role of BK receptor in cardiotoxicity induced by DOX and the underlying mechanisms. DOX induced myocardial injury with increased serum levels of AST, CK, and LDH, upregulated tissue expression of bradykinin B1/B2 receptor, FABP4 and iNOS, and downregulated expression of eNOS. However, these altered releases of myocardial enzyme and the expression level of iNOS were significantly prevented in the B1B2-/- mice. We concluded that the activation of both B1 and B2 receptors of BK were involved in the DOX-induced acute myocardial injury, possibly mediated through iNOS signaling pathways.

Bradykinin B2 receptor blockade and intradialytic hypotension.

INTRODUCTION: Intradialytic hypotension (IDH) is a common clinical complication and is associated with increased morbidity and mortality in patients undergoing maintenance hemodialysis (MHD). The pathogenesis of IDH has been attributed to the rapid reduction of plasma volume during hemodialysis and the inadequate compensatory mechanisms in response to hypovolemia, such as the lack of vasoconstriction. This may be due to the increased production of vasodilators, such as bradykinin. In this study we test the hypothesis that bradykinin B2 receptor blockade prevents intradialytic hypotension. METHODS: We performed a post-hoc analysis of a double-blind, placebo-controlled, randomized, 2 × 2 crossover clinical trial comparing the continuous infusion of icatibant, a bradykinin B2 receptor blocker, and placebo during hemodialysis. Icatibant or placebo was infused for 30 min before and during hemodialysis in 11 patients on MHD. RESULTS: Seven of the patients had IDH, defined as a reduction of systolic blood pressure equal to or greater than 20 mmHg during hemodialysis. Stratified analysis, based on the presence of IDH, revealed that icatibant prevented the decrease in blood pressure compared to placebo in patients with IDH [blood pressure at average nadir (2.5 h after hemodialysis): Placebo,114.3 ± 8.9 vs. icatibant, 125.6 ± 9.1 mmHg, mean ± S.E.M]. Icatibant did not affect blood pressure in the group of patients without IDH. CONCLUSION: Bradykinin B2 receptor blocker may prevent the occurrence of IDH. Further studies should evaluate the hemodynamic effects of icatibant during hemodialysis and the symptomatology associated with IDH.

Current treatment of hereditary angioedema: An update on clinical studies.

Hereditary angioedema (HAE) is a rare, potentially life-threatening disease that manifests as recurrent episodes of nonpruritic swelling that may affect the extremities, face, genitalia, gastrointestinal tract, and/or larynx. HAE is the result of a deficiency of functional C1-esterase inhibitor (C1-INH), a key regulator of the complement, coagulation, and kallikrein-kinin cascades. In HAE patients, overactivation of the kallikrein-kinin cascade results in excessive release of bradykinin, the mediator of the pain and swelling that is characteristic of HAE. Historically, treatment options for HAE have been limited, but newly approved and emerging therapies, such as C1-INH replacement products, a plasma kallikrein inhibitor, and a bradykinin B2-receptor antagonist, appear to provide safe and effective relief for a significant proportion of patients with HAE. Because they may have therapeutic and practical advantages over existing HAE therapies, the new agents have the potential to improve the overall management of patients with HAE. This article reviews the results from recent clinical trials of these drugs and considers their role in clinical practice.

Hereditary angiodema: a current state-of-the-art review, VI: novel therapies for hereditary angioedema.

OBJECTIVE: To provide a comprehensive overview on clinical trial design and results of emerging therapies for the treatment of hereditary angioedema (HAE). DATA SOURCES: MEDLINE or PubMed literature searches were conducted to identify double-blind, placebo-controlled trials investigating C1 esterase replacement, kallikrein inhibitor, and bradykinin receptor 2 antagonist therapies. STUDY SELECTION: Ongoing trials or those just recently completed from all companies developing a product for the treatment of HAE are discussed. RESULTS: All of these agents are believed to be effective when tested in patients in phase 1 or phase 2 trials. The studies have many features in common, including being placebo-controlled and blinded; having a preliminary screening visit at which the diagnosis is confirmed; having either low circulating C1 inhibitor protein levels or low levels of functional C1 inhibitor, low C4 levels, and normal C1q levels; enrolling individuals who are relatively early in attacks (4-6 hours from the onset); and stipulating that patients continue taking the medications that they have been taking in the long term. The type of attack acceptable for each treatment protocol varies from study to study. Some allow peripheral edema attacks, some facial attacks, and in some studies, the Food and Drug Administration has allowed purified serum C1 inhibitor to be used as a rescue medication if the patient remains in difficulty after the study drug has been used and found to be ineffective. CONCLUSION: The outlook for new, effective short-term therapy appears to be excellent. In the near future, a whole new therapeutic armamentarium to care for patients with HAE should be available in the United States.

Dual ACE and NEP inhibitor MDL-100,240 prevents and regresses severe angiotensin II-dependent hypertension partially through bradykinin type 2 receptor.

OBJECTIVE: To investigate the effects of the dual angiotensin-converting enzyme (ACE) + neutral endopeptidase (NEP) inhibitor, MDL-100,240 (MDL), on hypertension and cardiovascular damage in male heterozygous transgenic Ren2 rats. METHODS: Blood-pressure-matched 5-week-old transgenic rats were allocated to receive a placebo, MDL (40 mg/kg body weight) or ramipril (5 mg/kg body weight) for 8 weeks. During the last 4 weeks, the bradykinin B2 receptor antagonist, icatibant (0.5 mg/kg body weight), was also administered subcutaneously via osmotic minipumps to 50% of the transgenic rats receiving MDL or ramipril. We measured blood pressure, heart weight, structural changes in the aorta and small resistance mesenteric arteries, and the plasma concentrations of adrenomedullin, aldosterone, atrial natriuretic peptide and cGMP. To verify if MDL could regress long-standing hypertension and full-blown cardiovascular damage, 3-month-old transgenic rats received MDL subcutaneously (3 and 10 mg/kg body weight, osmotic minipumps) for 4 weeks. RESULTS: Compared with placebo, MDL decreased blood pressure (P < 0.001) and prevented left ventricular hypertrophy (P < 0.001), being as effective as ramipril. Hypertrophy and dilatation of the aorta and hypertrophy of the resistance arterioles were all prevented by MDL. Plasma aldosterone was decreased by MDL (P < 0.001), but not by ramipril. Icatibant blunted the decrease in blood pressure (P < 0.001), decreased cGMP concentrations and blunted the decrease in cross-sectional area of the resistance arteries in MDL-treated, but not in ramipril-treated, transgenic rats. In 3-month-old transgenic rats, MDL normalized blood pressure, regressed left ventricular hypertrophy and decreased adrenomedullin concentrations. CONCLUSIONS: The dual ACE+NEP inhibitor MDL prevented and regressed severe hypertension and cardiovascular damage, even in this model of severe angiotensin II-dependent hypertension with pronounced cardiovascular damage. Enhancement of the effects of bradykinin has a role in such favourable outcomes.

The involvement of kallikrein-kinin system in diabetes type I (insulitis).

Islet inflammation or insulitis is followed by selective destruction of the insulin secreting B-cell. Animal models of insulin-dependent diabetes mellitus (IDDM) have been used to characterize more fully insulitis, and our results with C57/BL/Ks mdb with low doses of streptozotocin (STZ) confirmed the disease. B1 receptor antagonist [Leu8]des-Arg9-BK has shown a significant effect on diabetic glycemia and renal control parameters. Compared to insulin, the drug was effective to prevent the insulitis and the renal damage. On the other hand, B2 receptor antagonist (HOE 140) and ACE-I (captopril) were only able to control the urinary diabetic proteinuria.