Enantiomeric dissection of the effects of the inotropic agent, EMD 53998, in single cardiac myocytes

Gambassi, Giovanni; Capogrossi, M. C.; Klockow, Michael; Lakatta, Edward G.

doi:10.1152/ajpheart.1993.264.3.h728

Cited by 24 publications

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“…Thiadiazinone derivative EMD 57033 1 (1,2), developed by Pharmaceutical Research, E. Merck (Darmstadt, Germany), is a novel cardiotonic agent that induces positive inotropy in intact cardiac myocytes without a significant effect on [Ca 2ϩ ] i transients (1)(2)(3)(4)(5)(6)(7). The pharmacological effects of the compound are thought to be mediated by enhanced responsiveness of the contractile filaments to Ca 2ϩ (2)(3)(4)(5)(6)(7).…”

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confidence: 99%

“…The pharmacological effects of the compound are thought to be mediated by enhanced responsiveness of the contractile filaments to Ca 2ϩ (2)(3)(4)(5)(6)(7). EMD 57033 has been found to increase Ca 2ϩ sensitivity of both myofibrillar ATPase (2, 6) and force development by skinned muscle fibers (2).…”

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confidence: 99%

“…The compound appears to have a direct effect on actin/myosin interactions (6). It has also been hypothesized that EMD 57033 may bind cardiac troponin C and increase its affinity for Ca 2ϩ (4,7). Troponin C (TnC) is the Ca 2ϩ binding subunit of troponin, a hetero-trimeric protein containing, in addition, inhibitory subunit (TnI) and tropomyosin binding subunit.…”

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confidence: 99%

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Interaction of Cardiotonic Thiadiazinone Derivatives with Cardiac Troponin C

Pan

Johnson

1996

Journal of Biological Chemistry

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Interaction of Cardiotonic Thiadiazinone Derivatives with Cardiac Troponin C

Pan

Johnson

1996

Journal of Biological Chemistry

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“…Whereas EMD 57439 raises resting intracellular Ca 2+ , EMD 57033 has no effect on the size or time course of the Ca 2+ transient in either guinea-pig skinned myocytes [12] or intact canine myocytes [37,40]. In intact ferret papillary muscle, both the size and the time course of the Ca 2+ transient were reduced by EMD 57033 [41].…”

Section: Introductionmentioning

confidence: 93%

“…It increases maximal calcium-activated tension (P max ) in a variety of intact and skinned preparations [2,3,26], without increasing the size or time course of the Ca 2+ transient [10,12,26,39].…”

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confidence: 99%

The effects of the inotropic agent EMD 57033 on activation and relaxation kinetics in frog skinned skeletal muscle

Lipscomb-Allhouse

Mulligan

Ashley

2001

Pfl�gers Archiv European Journal of Physiology

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The effect of the cardiotonic sensitizing drug EMD 57033 was studied in frog skinned skeletal muscle fibres at 12 degrees C to provide a baseline for skeletal muscle studies and for comparison with cardiac fibres. The activation and relaxation of fibres were induced by laser flash photolysis of the caged calcium NP-EGTA, and caged calcium chelator diazo-2 respectively. EMD 57033 (10 microM) slightly increased the rate of relaxation (rate constant k1 changing from 24.0 +/- 2.9 s-1 in control to 28.1 +/- 3.2 s-1) but had no significant effect on the rate of activation (k1 = 9.6 +/- 0.9 s-1 in control conditions, 9.7 +/- 1.6 s-1 with EMD 57033). The effect of the optical isomer of EMD 57033, EMD 57439, was examined on steady-state force and relaxation rate. EMD57439 (10 microM) slowed the rate of relaxation (k1 = 20.5 +/- 2.4 s-1) but had no effect on the maximal calcium-activated force whereas EMD 57033 increased it by 16.5 +/- 5.7%. These results are compared to earlier results from this laboratory in guinea-pig skinned trabeculae, and a possible model for the action of EMD 57033 whereby the drug enhances force per cross-bridge is discussed.

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Omecamtiv mecarbil augments cardiomyocyte contractile activity both at resting and systolic Ca²⁺ levels

et al. 2023

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Aims Heart failure with reduced ejection fraction (HFrEF) is a disease with high mortality and morbidity. Recent positive inotropic drug developments focused on cardiac myofilaments, that is, direct activators of the myosin molecule and Ca 2+ sensitizers for patients with advanced HFrEF. Omecamtiv mecarbil (OM) is the first direct myosin activator with promising results in clinical studies. Here, we aimed to elucidate the cellular mechanisms of the positive inotropic effect of OM in a comparative in vitro investigation where Ca 2+ ‐sensitizing positive inotropic agents with distinct mechanisms of action [EMD 53998 (EMD), which also docks on the myosin molecule, and levosimendan (Levo), which binds to troponin C] were included. Methods Enzymatically isolated canine cardiomyocytes with intact cell membranes were loaded with Fura‐2AM, a Ca 2+ ‐sensitive, ratiometric, fluorescent dye. Changes in sarcomere length (SL) and intracellular Ca 2+ concentration were recorded in parallel at room temperature, whereas cardiomyocyte contractions were evoked by field stimulation at 0.1 Hz in the presence of different OM, EMD, or Levo concentrations. Results SL was reduced by about 23% or 9% in the presence of 1 μM OM or 1 μM EMD in the absence of electrical stimulation, whereas 1 μM Levo had no effect on resting SL. Fractional sarcomere shortening was increased by 1 μM EMD or 1 μM Levo to about 152%, but only to about 128% in the presence of 0.03 μM OM. At higher OM concentrations, no significant increase in fractional sarcomere shortening could be recorded. Contraction durations largely increased, whereas the kinetics of contractions and relaxations decreased with increasing OM concentrations. One‐micromole EMD or 1 μM Levo had no effects on contraction durations. One‐micromole Levo, but not 1 μM EMD, accelerated the kinetics of cardiomyocyte contractions and relaxations. Ca 2+ transient amplitudes were unaffected by all treatments. Conclusions Our data revealed major distinctions between the cellular effects of myofilament targeted agents (OM, EMD, or Levo) depending on their target proteins and binding sites, although they were compatible with the involvement of Ca 2+ ‐sensitizing mechanisms for all three drugs. Significant part of the cardiotonic effect of OM relates to the prolongation of systolic contraction in combination with its Ca 2+ ‐sensitizing effect.

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Enantiomeric dissection of the effects of the inotropic agent, EMD 53998, in single cardiac myocytes

Cited by 24 publications

References 0 publications

Interaction of Cardiotonic Thiadiazinone Derivatives with Cardiac Troponin C

Interaction of Cardiotonic Thiadiazinone Derivatives with Cardiac Troponin C

The effects of the inotropic agent EMD 57033 on activation and relaxation kinetics in frog skinned skeletal muscle

Omecamtiv mecarbil augments cardiomyocyte contractile activity both at resting and systolic Ca²⁺ levels

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Enantiomeric dissection of the effects of the inotropic agent, EMD 53998, in single cardiac myocytes

Cited by 24 publications

References 0 publications

Interaction of Cardiotonic Thiadiazinone Derivatives with Cardiac Troponin C

Interaction of Cardiotonic Thiadiazinone Derivatives with Cardiac Troponin C

The effects of the inotropic agent EMD 57033 on activation and relaxation kinetics in frog skinned skeletal muscle

Omecamtiv mecarbil augments cardiomyocyte contractile activity both at resting and systolic Ca2+ levels

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Omecamtiv mecarbil augments cardiomyocyte contractile activity both at resting and systolic Ca²⁺ levels