Colchicine in acutely decompensated heart failure: the COLICA trial.

BACKGROUND AND AIMS: Acute heart failure (AHF) promotes inflammatory activation, which is associated with worse outcomes. Colchicine has proven effective in other cardiovascular conditions characterized by inflammatory activation, but has never been evaluated in the setting of AHF. METHODS: This multicenter, randomized, double-blind and placebo-controlled trial included patients with AHF, requiring ≥40 mg of intravenous furosemide, regardless of their left ventricular ejection fraction (LVEF) and inpatient or outpatient setting. Patients were randomized within the first 24 hours of presentation to receive either colchicine or placebo, with loading dose of 2 mg followed by 0.5 mg every 12 hours for 8 weeks. RESULTS: A total of 278 patients (median age 75 years, LVEF 40%, baseline N-terminal pro-B-type natriuretic peptide [NT-proBNP] 4390 pg/mL) were randomized to colchicine (n=141) or placebo (n=137). The primary endpoint, the time-averaged reduction in NT-proBNP levels at 8 weeks, did not differ between the colchicine group (-62.2%, 95% confidence interval [CI] -68.9% to -54.2%) and the placebo group (-62.1%, 95% CI -68.6% to -54.3%) (ratio of change 1.0). The reduction in inflammatory markers was significantly greater with colchicine: ratio of change 0.60 (p<0.001) for C-reactive protein and 0.72 (p=0.019) for interleukin-6. No differences were found in new worsening heart failure episodes (14.9% with colchicine vs. 16.8% with placebo, p=0.698); however, the need for intravenous furosemide during follow-up was lower with colchicine (p=0.043). Diarrhea was slightly more common with colchicine, but it did not result in differences in medication withdrawal (8.5% vs. 8.8%). CONCLUSIONS: Colchicine was safe and effective in reducing inflammation in patients with AHF, however colchicine and placebo exhibited comparable effects on reducing NT-proBNP and preventing new worsening heart failure events.

Pulmonary Production of Soluble ST2 in Heart Failure.

BACKGROUND: Serum concentrations of ST2 (interleukin-1 receptor-like 1) represent a meaningful prognostic marker in cardiac diseases. Production of soluble ST2 (sST2) may be partially extracardiac. Identification of sST2 sources is relevant to design strategies for modulating its signaling. METHODS AND RESULTS: An experimental model of ischemic heart failure was used. sST2, membrane-bound ST2 (ST2L), and IL-33 were measured in lungs, heart, kidney, and liver by quantifying mRNA and protein expression in tissue samples obtained at different times (1, 2, 4, and 24 weeks). Primary human type II pneumocyte cell cultures were subjected to strain. sST2 was measured in samples of bronchial aspirate and serum obtained from patients treated with invasive respiratory support. In the experimental model, sST2 increased significantly from the first week in both lungs and myocardium, whereas ST2L/IL-33 response was unfavorable in lungs (decrease) and favorable in myocardium (increase). No changes were observed in liver and kidneys. ST2 immunostaining was intensely observed in alveolar epithelium, and sST2 was secreted by primary human type II pneumocytes in response to strain. sST2 levels in lung aspirates were substantially higher in the presence of cardiogenic pulmonary edema (median, 228 [interquartile range, 28.4-324.0] ng/mL; P<0.001) than bronchopneumonia (median, 5.5 [interquartile range, 1.6-6.5]) or neurological disorders (median, 2.9 [interquartile range, 1.7-10.1]), whereas sST2 concentrations in serum did not differ. CONCLUSIONS: The lungs are a relevant source of sST2 in heart failure. These results may have implications for the progression of disease and the development of therapies targeting the ST2 system in patients with heart failure.

Valores seriados de galectina-3 a corto plazo en pacientes hospitalizados por insuficiencia cardiaca aguda / Short-term serial measurement of galectin-3 in hospitalized patients with acute heart failure

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Involvement of ferritin heavy chain in the preventive effect of metformin against doxorubicin-induced cardiotoxicity.

Doxorubicin is a wide-spectrum chemotherapeutic agent, although a cumulative dose may cause cardiac damage and lead to heart failure. Doxorubicin cardiotoxicity is dependent on the intracellular iron pool and manifests itself by increasing oxidative stress. Our group has recently shown the ability of metformin, an oral antidiabetic with cardiovascular benefits, to protect cardiomyocytes from doxorubicin-induced damage. This work aimed to study whether metformin is able to modulate the expression of ferritin, the major intracellular iron storage protein, in cardiomyocytes and whether it is involved in their protection. The addition of metformin to adult mouse cardiomyocytes (HL-1 cell line) induced both gene and protein expression of the ferritin heavy chain (FHC) in a time-dependent manner. The silencing of FHC expression with siRNAs inhibited the ability of metformin to protect cardiomyocytes from doxorubicin-induced damage, in terms of the percentage of cell viability, the levels of reactive oxygen species, and the activity of antioxidant enzymes (catalase, glutathione peroxidase, and superoxide dismutase). In addition, metformin induced the activation of NF-κB in HL-1 cells, whereas preincubation with SN50, an inhibitor of NF-κB, blocked the upregulation of the FHC and the protective effect mediated by metformin. Taken together, these results provide new knowledge on the protective actions of metformin against doxorubicin-induced cardiotoxicity by identifying FHC and NF-κB as the major mediators of this beneficial effect.