Cardiac Myosin Inhibitors: Expanding the Horizon for Hypertrophic Cardiomyopathy Management.

OBJECTIVE: To review the current literature on the efficacy and safety of cardiac myosin inhibitors (CMIs) for the treatment of hypertrophic cardiomyopathy (HCM). DATA SOURCES: A literature search was conducted on PubMed from origin to April 2023, using the search terms "MYK-461," "mavacamten," "CK-3773274," and "aficamten." Studies were limited to English-based literature, human subjects, and clinical trials resulting in the inclusion of 13 articles. ClinicalTrials.gov was also used with the same search terms for ongoing and completed trials. STUDY SELECTION AND DATA EXTRACTION: Only phase II and III studies were included in this review except for pharmacokinetic studies that were used to describe drug properties. DATA SYNTHESIS: CMIs enable cardiac muscle relaxation by decreasing the number of myosin heads that can bind to actin and form cross-bridges. Mavacamten, the first Food and Drug Administration (FDA)-approved drug in this class, has been shown to improve hemodynamic, functional, and quality of life measures in HCM with obstruction. In addition, aficamten is likely to become the next FDA-approved CMI with promising phase II data and an ongoing phase III trial expected to release results in the next year. RELEVANCE TO PATIENT CARE AND CLINICAL PRACTICE IN COMPARISON WITH EXISTING DRUGS: CMIs provide a novel option for obstructive hypertrophic cardiomyopathy, particularly in those not suitable for septal reduction therapy. Utilization of these agents requires knowledge of drug interactions, dose titration schemes, and monitoring parameters for safety and efficacy. CONCLUSIONS: CMIs represent a new class of disease-specific drugs for treatment of HCM. Cost-effectiveness studies are needed to delineate the role of these agents in patient therapy.

Monitoring treatment with cardiac myosin inhibitors in symptomatic obstructive hypertrophic cardiomyopathy.

PURPOSE OF REVIEW: Cardiac myosin inhibitors (CMIs) represent a major milestone in the treatment of patients with symptomatic obstructive hypertrophic cardiomyopathy. The objective of this review is to discuss the mechanisms of action, clinical trial evidence, safety profile and monitoring of CMIs, which are important to the implementation of these drugs in clinical practice. RECENT FINDINGS: Mavacamten and aficamten have both been shown to substantially improve left ventricular outflow tract gradients, biomarkers and symptoms in patients with obstructive hypertrophic cardiomyopathy. Both agents are well tolerated with few adverse events in clinical trial follow up. Transient reductions in left ventricular ejection fraction may be associated with both mavacamten and aficamten but respond to dose reduction. SUMMARY: There is now robust clinical trial evidence base to support the use of mavacamten for patients with symptomatic obstructive hypertrophic cardiomyopathy. Generation of long-term safety and efficacy data and exploring applications of CMI to nonobstructive cardiomyopathy and heart failure with preserved ejection fraction represent important next steps.

Differentiating Cardiac Troponin Levels During Cardiac Myosin Inhibition or Cardiac Myosin Activation Treatments: Drug Effect or the Canary in the Coal Mine?

PURPOSE OF REVIEW: Cardiac myosin inhibitors (CMIs) and activators are emerging therapies for hypertrophic cardiomyopathy (HCM) and heart failure with reduced ejection fraction (HFrEF), respectively. However, their effects on cardiac troponin levels, a biomarker of myocardial injury, are incompletely understood. RECENT FINDINGS: In patients with HCM, CMIs cause substantial reductions in cardiac troponin levels which are reversible after stopping treatment. In patients with HFrEF, cardiac myosin activator (omecamtiv mecarbil) therapy cause modest increases in cardiac troponin levels which are reversible following treatment cessation and not associated with myocardial ischaemia or infarction. Transient changes in cardiac troponin levels might reflect alterations in cardiac contractility and mechanical stress. Such transient changes might not indicate cardiac injury and do not appear to be associated with adverse outcomes in the short to intermediate term. Longitudinal changes in troponin levels vary depending on the population and treatment. Further research is needed to elucidate mechanisms underlying changes in troponin levels.

An evaluation of mavacamten for the treatment of symptomatic obstructive hypertrophic cardiomyopathy in adults.

INTRODUCTION: Hypertrophic cardiomyopathy (HCM) is a genetic cardiac disorder leading to hypertrophy of the left ventricle excluding other etiologies. Patients can experience exertional chest pain, dyspnea, syncope or even sudden cardiac death (SCD). Traditional medical management consists of beta blockers (BB), nondihydropyridine calcium channel blockers and disopyramide. Mavacamten, a novel cardiac myosin inhibitor, has recently been shown to improve both quantitative and qualitative measures of obstructive HCM allowing some patients to defer septal reduction therapy. AREAS COVERED: This review delves into the pharmacotherapy of mavacamten, the evidence behind this first-in-class drug for HCM, guidance for clinical usage, and possible future uses for cardiac myosin inhibitors. EXPERT OPINION: Mavacamten should be incorporated into the standard armamentarium of medications used to treat obstructive HCM. PIONEER-HCM, EXPLORER-HCM and VALOR-HCM demonstrated improvements in peak LVOT gradient both at rest and post-exercise, cardiac biomarkers, New York Heart Association (NYHA) functional class and Kansas City Cardiomyopathy Questionnaire (KCCQ) scores. Unlike other medications utilized for treatment, mavacamten can delay or even obviate the need for septal reduction therapy.

The Heart Failure Knights.

The 2021 European Society of Cardiology guidelines for the diagnosis and treatment of acute and chronic heart failure (HF) have abandoned the sequential approach for optimal drug therapy and proposed four drug classes, the so-called 4 "pillars" (angiotensin-converting enzyme inhibitors; angiotensin receptor-neprilysin inhibitors; beta-blockers; mineralocorticoid receptor antagonists and sodium-glucose co-transporter 2 inhibitors) to be initiated and titrated in all patients with reduced ejection fraction HF (HFrEF). In addition, new molecules have been considered, derived from recently reported advances from trials in HFrEF. In this review, Authors examine in particular these new molecules, as further "knights" for HF. In particular, vericiguat, a novel oral soluble guanylate cyclase stimulator, has proved effective in patients with HFrEF who had recently been hospitalized or had received intravenous diuretic therapy. The selective cardiac myosin activator omecamtiv mecarbil and the cardiac myosin inhibitors aficamten and mavacamten are under investigation. Cardiac myosin stimulator, omecamtiv mecarbil, has shown efficacy in HFrEF, lowering HF related events or cardiovascular death, while the 2 inhibitors, mavacamten and aficamten have been shown to reduce hypercontractility and left ventricular outflow obstruction improving functional capacity in randomized trials targeting hypertrophic cardiomyopathy. These agents are the prototypes of active pipelines promising to deliver an array of molecules against HF in the near future.

Aficamten: A Breakthrough Therapy for Symptomatic Obstructive Hypertrophic Cardiomyopathy.

Aficamten is a novel cardiac myosin inhibitor that has demonstrated its ability to safely lower left ventricular outflow tract (LVOT) gradients and improve heart failure symptoms in patients with obstructive hypertrophic cardiomyopathy (HCM). Based on the REDWOOD-HCM open label extension (OLE) study, participants receiving aficamten had significantly reduced resting and Valsalva LVOT gradient within 2 weeks after initiating treatment, with ongoing improvements over 24 weeks, and recent evidence suggests effects can sustain up to 48 weeks. While beta-blockers, calcium channel blockers, and disopyramide have shown some benefits in managing HCM, they have limited direct impact on the underlying disease process in patients with obstructive HCM. Aficamten achieves its therapeutic effect by reducing hypercontractility and improving diastolic function in obstructive HCM. Mavacamten was the first cardiac myosin inhibitor approved for symptomatic obstructive HCM. However, aficamten has a shorter human half-life (t1/2) and fewer drug-drug interactions, making it a preferable treatment option. This review evaluates the long-term clinical value and safety of aficamten in patients with obstructive HCM based on available data from completed and ongoing clinical trials. Additionally, the molecular basis of sarcomere-targeted therapy in reducing LVOT gradients is explored, and its potential in managing obstructive HCM is discussed.

Cardiac Myosin Inhibitors for Managing Obstructive Hypertrophic Cardiomyopathy: JACC: Heart Failure State-of-the-Art Review.

Hypertrophic cardiomyopathy (HCM) is frequently caused by pathogenic variants in genes encoding sarcomere proteins and is characterized by left ventricular (LV) hypertrophy, hypercontractility, and-in many cases-left ventricular outflow tract (LVOT) obstruction. Despite standard management, obstructive HCM (oHCM) can still cause substantial morbidity, highlighting the critical need for more effective disease-specific therapeutic approaches. Over the past decade, improved understanding of the molecular pathobiology of HCM has culminated in development of cardiac myosin inhibitors (CMIs), a novel drug class that in recent randomized clinical trials has been shown to decrease LVOT obstruction, improve exercise capacity, and ameliorate symptom burden in patients with oHCM. Although promising, areas of uncertainty remain, including the long-term safety and efficacy of CMIs and whether they have the potential to modify progression of disease. Herein, we review key milestones in the clinical development of CMIs, contextualize CMIs with established oHCM therapies, and discuss future challenges and opportunities for the use of CMIs across the HCM spectrum.

Safety and efficacy of omecamtiv mecarbil for heart failure: A systematic review and meta-analysis.

AIM: To assess the safety and efficacy of omecamtiv mecarbil compared with placebo in heart failure (HF) patients. METHODS: We searched PubMed, Web of Science, Cochrane Library, and SCOPUS until August 15th, 2021. We included all randomized controlled studies comparing omecamtiv mecarbil with placebo in heart failure patients. The meta-analysis was carried out using Rev Man software V5.4. RESULTS: A total of eight studies were included in our systematic review. Pooled analysis showed that omecamtiv mecarbil is not associated with increased incidence of death, any adverse events, hypotension, heart failure, ventricular tachyarrhythmia, dyspnea, dizziness, and serious adverse events. Regarding the efficacy, omecamtiv mecarbil significantly reduced heart rate with some studies demonstrating its significant improvement in left ventricular ejection fraction and systolic function. CONCLUSION: Omecamtiv mecarbil is a well-tolerated drug in heart failure patients. The limited data regarding the efficacy suggested that it may improve ejection fraction and systolic function.

Recent advances in the pharmacological therapy of chronic heart failure: Evidence and guidelines.

Heart failure (HF) is a clinical syndrome with symptoms and or signs caused by a structural and/or functional cardiac abnormality and associated with elevated natriuretic peptide levels and/or objective evidence of pulmonary or systemic congestion. It is classified according to left ventricular ejection fraction (LVEF): HF with reduced EF (HFrEF) with an LVEF of ≤40%, HF with mildly reduced EF (HFmrEF) with an LVEF of 41 to 49%, HF with preserved EF (HFpEF) with an LVEF of ≥50%, and HF with improved EF (HFimpEF) with a baseline LVEF of ≤40%, a ≥ 10% increase from baseline LVEF, and a second measurement of LVEF of >40%. Despite the remarkable progress in the management of HF over the past decades, its prognosis is still poor with higher rates of mortality and hospitalization due to worsening HF. Therefore, the development of novel strategies including pharmacologic therapy is needed to further improve its prognosis. Recent large-scale clinical trials have demonstrated the efficacy of newer pharmacological agents including angiotensin II receptor/neprilysin inhibitor (ARNI), sacubitril/valsartan, type 2 sodium-glucose cotransporter (SGLT2) inhibitors, dapagliflozin, empagliflozin and sotagliflozin, and soluble guanylyl cyclase (sGC) stimulator, vericiguat, and cardiac myosin activator, omecamtiv mecarbil. This review focuses the recent advances in the pharmacological agents for treatment of chronic heart failure, including their mechanisms of action, the evidence based on the clinical trials, and the guideline recommendations for their use.

Myosin modulators: emerging approaches for the treatment of cardiomyopathies and heart failure.

Myosin modulators are a novel class of pharmaceutical agents that are being developed to treat patients with a range of cardiomyopathies. The therapeutic goal of these drugs is to target cardiac myosins directly to modulate contractility and cardiac power output to alleviate symptoms that lead to heart failure and arrhythmias, without altering calcium signaling. In this Review, we discuss two classes of drugs that have been developed to either activate (omecamtiv mecarbil) or inhibit (mavacamten) cardiac contractility by binding to ß-cardiac myosin (MYH7). We discuss progress in understanding the mechanisms by which the drugs alter myosin mechanochemistry, and we provide an appraisal of the results from clinical trials of these drugs, with consideration for the importance of disease heterogeneity and genetic etiology for predicting treatment benefit.

Effect of Varying Degrees of Renal Impairment on the Pharmacokinetics of Omecamtiv Mecarbil.

BACKGROUND AND OBJECTIVE: Omecamtiv mecarbil is a novel selective cardiac myosin activator (myotrope) under investigation for the treatment of heart failure with reduced ejection fraction. The objective of this clinical study was to estimate the effect of varying degrees of renal impairment on the pharmacokinetics of omecamtiv mecarbil single dose (50 mg) under fasted conditions. METHODS: This phase I, open-label, non-randomized, parallel-group study evaluated the pharmacokinetics, safety, and tolerability of a single oral dose of omecamtiv mecarbil 50 mg in individuals with normal renal function or mild, moderate, and severe renal impairment, including end-stage renal disease requiring dialysis. Geometric least-squares mean ratios of maximum observed concentration (Cmax) and area under the plasma concentration-time curve (AUC) and 90% confidence intervals were derived for comparisons of renal impairment vs normal renal function. Participants were monitored for adverse events. RESULTS: Thirty-one participants received treatment and completed the study. Geometric mean exposures were similar for participants with renal impairment (AUC∞ range, 2550-3220 h*ng/mL; Cmax range, 78.9-107 ng/mL) and participants with normal renal function (AUC∞, 2790 h*ng/mL; Cmax, 92.6 ng/mL), with geometric least-squares mean ratios of 85.2-125.9. Exposure was similar on dialysis vs non-dialysis days in participants with end-stage renal disease (AUC0-24, 1650 vs 1700 h*ng/mL; Cmax, 100.0 vs 107.0 ng/mL). Four participants (12.9%) reported four treatment-emergent adverse events. No deaths, treatment-emergent adverse events leading to discontinuation, or serious adverse events occurred. CONCLUSIONS: Omecamtiv mecarbil pharmacokinetics were not meaningfully affected by renal function or hemodialysis, suggesting the same dosing strategy can be used in individuals with normal renal function or renal impairment. Oral administration of omecamtiv mecarbil was not associated with major tolerability findings. This study supports omecamtiv mecarbil for the treatment of heart failure in individuals with or without renal impairment.

Monomethoxypolyethylene glycol-modified cardiac myosin treatment blocks the active and passive induction of experimental autoimmune myocarditis.

BACKGROUND: Injecting various protein antigens conjugated to monomethoxypolyethylene glycol (mPEG) results in antigen-specific tolerance to subsequent immunization. In the present study the ability of mPEG-modified cardiac myosin (CM) to block the development of experimental autoimmune myocarditis (EAM) induced by CM immunization or by the transfer of lymphocytes from CM-immunized donors was studied. METHODS AND RESULTS: A/J mice were injected with mPEG-CM before active or passive EAM induction. We examined the suppressive mechanism by the transfer of lymphocytes from mPEG-CM-treated mice into naïve mice. To ascertain the cells responsible for suppressing EAM induction, in vivo or in vitro depletion of CD4(+) or CD8(+) T cells was performed. mPEG-CM administered before active or passive EAM induction markedly suppressed the incidence and severity of EAM and reduced CM-specific antibody responses. When lymphocytes from mPEG-CM treated mice were transferred into naïve mice that were then immunized with CM, the suppressive effect was recapitulated. CONCLUSIONS: mPEG-CM treatment blocked the active and passive induction of EAM.