9GZ1
Beta-cardiac myosin interacting heads motif complexed to mavacamten
Summary for 9GZ1
| Entry DOI | 10.2210/pdb9gz1/pdb |
| EMDB information | 51719 |
| Descriptor | Myosin-7, Myosin light chain 1/3, skeletal muscle isoform, Myosin regulatory light chain 11, ... (7 entities in total) |
| Functional Keywords | mavacamten, inhibitor, interacting heads motif, myosin, motor protein |
| Biological source | Homo sapiens (human) More |
| Total number of polymer chains | 6 |
| Total formula weight | 344066.28 |
| Authors | McMillan, S.N.,Pitts, J.R.T.,Barua, B.,Winkelmann, D.A.,Scarff, C.A. (deposition date: 2024-10-03, release date: 2025-03-12) |
| Primary citation | McMillan, S.N.,Pitts, J.R.T.,Barua, B.,Winkelmann, D.A.,Scarff, C.A. Mavacamten inhibits myosin activity by stabilising the myosin interacting-heads motif and stalling motor force generation. Biorxiv, 2025 Cited by PubMed Abstract: Most sudden cardiac deaths in young people arise from hypertrophic cardiomyopathy, a genetic disease of the heart muscle, with many causative mutations found in the molecular motor beta-cardiac myosin that drives contraction. Therapeutic intervention has until recently been limited to symptomatic relief or invasive procedures. However, small molecule modulators of cardiac myosin are promising therapeutic options to target disease progression. Mavacamten is the first example to gain FDA approval but its molecular mode of action remains unclear, limiting our understanding of its functional effects in disease. To better understand this, we solved the cryoEM structures of beta-cardiac heavy meromyosin in three ADP.Pi-bound states, the primed motor domain in the presence and absence of mavacamten, and the sequestered autoinhibited interacting-heads motif (IHM) in complex with mavacamten, to 2.9 Å, 3.4 Å and 3.7 Å global resolution respectively. Together with quantitative crosslinking mass spectrometric analysis, these structures reveal how mavacamten inhibits myosin. Mavacamten stabilises ADP.Pi binding, stalling the motor domain in a primed state, reducing motor dynamics required for actin-binding cleft closure, and slowing progression through the force generation cycle. Within the two-headed myosin molecule, these effects are propagated and lead to stabilisation of the IHM, through increased contacts at the motor-motor interface. Critically, while mavacamten treatment can thus rescue cardiac muscle relaxation in diastole, it can also reduce contractile output in systole in the heart. PubMed: 39990378DOI: 10.1101/2025.02.12.637875 PDB entries with the same primary citation |
| Experimental method | ELECTRON MICROSCOPY (3.7 Å) |
Structure validation
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