key: cord-1028720-dzwim09f authors: Ferreira, João Pedro; Girerd, Nicolas; Rocca, Hans-Peter Brunner-La; Pellicori, Pierpaolo; Cleland, John G.; Rossignol, Patrick; Zannad, Faiez title: No influence of spironolactone on plasma concentrations of angiotensin-converting enzyme 2: Findings from the HOMAGE randomized trial date: 2021-11-09 journal: Arch Cardiovasc Dis DOI: 10.1016/j.acvd.2021.10.003 sha: 54fbd47a73d4ec7be27a0ef558cde205b73501fb doc_id: 1028720 cord_uid: dzwim09f nan assigned to discontinue versus continue these medications [11] . The REPLACE COVID trial did not find any difference in outcomes comparing strategies of discontinuing versus continuing ACE inhibitors and ARB in patients with COVID-19 [12] . Other ongoing randomized controlled trials (RCT) are also prospectively investigating whether ACE inhibitors or ARB should be given or withheld in patients at risk of or with SARS-CoV-2 infection (e.g. ClinicalTrials.gov Identifiers: NCT04353596, NCT04508985, NCT04355936, NCT04356495). Little information on the effects of MRA on plasma ACE2 levels exists, but some have speculated that spironolactone may reduce the inflammatory pathways and fibrosis complicating SARS-CoV-2 infection [7, 13] and RCT are currently testing this hypothesis (NCT04424134). The HOMAGE (Heart OMics in AGEing) clinical trial randomized patients at risk of developing heart failure to spironolactone in addition to usual care or usual care alone, for up to 9 months. We measured plasma concentrations of ACE2 at baseline and during follow-up, which provided an opportunity to investigate the effects of spironolactone on plasma concentrations of ACE2. The HOMAGE trial (NCT02556450) had a prospective, randomized, open-label, blinded-endpoint, multicentre design, in which people at increased risk of developing heart failure were randomly assigned to receive either spironolactone in addition to standard care or usual care alone (''control''), for up to 9 months. The rationale, trial design and main results have been published [14, 15] . The study was approved by relevant ethics committees and regulatory bodies. All participants provided written informed consent. The main inclusion criteria were age ≥ 60 years, increased risk of cardiovascular events (defined as the presence of at least two of the following risk factors: diabetes, hypertension, microalbuminuria or an abnormal electrocardiogram) for coronary artery disease, and ventricular dysfunction as evidenced by an NT-pro-B-type natriuretic peptide (BNP) concentration between 125 and 1000 ng/L or BNP between 35 and 280 ng/L. The main exclusion criteria were glomerular filtration rate (eGFR) < 30 mL/min/1.73 m 2 , serum potassium > 5.0 mmol/L, atrial fibrillation or flutter, left ventricular ejection fraction < 45%, heart failure or treatment with loop diuretics. Plasma concentrations of ACE2 were measured from samples taken at baseline, 1 month and at the final trial visit. Assays were done at the TATAA biocentre multiomics programme investigating mechanisms of progression to heart failure. Each kit uses a proximity extension assay technology, providing log 2 normalized protein expression (NPX) values with relative rather than ponderal or molecular concentrations (https://www.olink.com/). The primary outcome of interest was the change in plasma concentrations of ACE2 from baseline to the final visit using analysis of covariance comparing the difference of changes between the control and spironolactone groups in the regression model. A linear regression model was fitted, with the change in concentration (last visit -baseline) as the outcome variable, a binary variable to indicate the treatment group (control/spironolactone) and the baseline ACE2 value (NPX units) as covariates. The treatment effect was the coefficient that resulted from the comparison of spironolactone and control in the regression model. Similar 2 Figure 1 . Change in circulating angiotensin-converting enzyme 2 (ACE2) concentration in patients randomized to spironolactone plus usual care or usual care alone: spironolactone did not significantly change ACE2 levels (P = 0.083 at month 1 and 0.44 at month 9). analyses were performed for changes between baseline and 1 month. Statistical analyses were performed using Stata ® (version 16, StataCorp LP). A total of 527 patients were randomized (265 to spironolactone and 262 to control). Median (25th to 75th percentile) follow-up was 8.9 (6.0, 9.2) months. The characteristics of the patients by ACE2 tertile are detailed in Table 1 . Plasma concentrations of ACE2 were significantly (P < 0.05) associated with male sex (␤ = 0.95), diabetes (␤ = 0.37), higher body mass index (␤ = 1.09) and higher concentrations of procollagen type III N-terminal propeptide (␤ = 0.61), but not with age or coronary artery disease. Plasma concentrations of ACE2 were similar for the overall population at baseline, 1 and 9 months (3.6 ± 0.7 log2 at all time-points); changes from baseline did not differ for those assigned to spironolactone or control (1 month 0.06 [−0.01 to 0.13]; 9 months −0.03 [−0.11 to 0.05]) (Fig. 1) . Stratification by risk subgroups of sex (women vs. men), diabetes (presence vs. absence) and body mass index (< 25 vs. 25 − 30 vs. > 30 kg/m 2 ) did not influence the neutrality of spironolactone effect (interaction P > 0.1 for all). Administration of spironolactone did not substantially change plasma ACE2 concentrations. These data do not support stopping or withholding MRA in patients with SARS-CoV-2 infection who have an indication for these drugs. Moreover, in agreement with other reports [3, 7, 16] , we found that plasma concentrations of ACE2 were higher in men with diabetes and higher body mass index and, therefore, presumably with a higher risk of cardiovascular events independent of COVID-19. Whether the effects of MRA on inflammatory pathways and fibrosis have a favourable effect on the long-term outcome of patients with COVID-19 should also be considered. Trials formally testing safety and efficacy are already underway and more are planned. Some limitations should be acknowledged. Our results may only apply to populations with characteristics similar to those in the HOMAGE trial. Our patients did not have SARS-CoV-2 infection and we cannot establish any association between the use of spironolactone and the risk or course of COVID-19. We measured only plasma ACE2 and do not know how well this reflects membrane-bound ACE2. In conclusion, spironolactone did not substantially change plasma concentrations of ACE2 in this randomized trial, somewhat allaying concerns that MRA may increase the risk of SARS-CoV-2 infection or worsen its outcome. These findings do not support withholding MRA, if clinically indicated, in the context of SARS-CoV-2 infection. The results of randomized trials are awaited. The authors declare that they have no competing interest. 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