Cryo-EM structure of the human cardiac myosin filament
Pumping of the heart is powered by filaments of the motor protein myosin that pull on actin filaments to generate cardiac contraction. In addition to myosin, the filaments contain cardiac myosin-binding protein C (cMyBP-C), which modulates contractility in response to physiological stimuli, and titi...
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| Published in | Nature (London) Vol. 623; no. 7988; pp. 853 - 862 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
23.11.2023
Nature Publishing Group |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0028-0836 1476-4687 1476-4687 |
| DOI | 10.1038/s41586-023-06691-4 |
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| Abstract | Pumping of the heart is powered by filaments of the motor protein myosin that pull on actin filaments to generate cardiac contraction. In addition to myosin, the filaments contain cardiac myosin-binding protein C (cMyBP-C), which modulates contractility in response to physiological stimuli, and titin, which functions as a scaffold for filament assembly
1
. Myosin, cMyBP-C and titin are all subject to mutation, which can lead to heart failure. Despite the central importance of cardiac myosin filaments to life, their molecular structure has remained a mystery for 60 years
2
. Here we solve the structure of the main (cMyBP-C-containing) region of the human cardiac filament using cryo-electron microscopy. The reconstruction reveals the architecture of titin and cMyBP-C and shows how myosin’s motor domains (heads) form three different types of motif (providing functional flexibility), which interact with each other and with titin and cMyBP-C to dictate filament architecture and function. The packing of myosin tails in the filament backbone is also resolved. The structure suggests how cMyBP-C helps to generate the cardiac super-relaxed state
3
; how titin and cMyBP-C may contribute to length-dependent activation
4
; and how mutations in myosin and cMyBP-C might disturb interactions, causing disease
5
,
6
. The reconstruction resolves past uncertainties and integrates previous data on cardiac muscle structure and function. It provides a new paradigm for interpreting structural, physiological and clinical observations, and for the design of potential therapeutic drugs.
The intricate molecular architecture and interactions of the human cardiac myosin filament offer insights into cardiac physiology, disease and drug therapy. |
|---|---|
| AbstractList | Pumping of the heart is powered by filaments of the motor protein myosin that pull on actin filaments to generate cardiac contraction. In addition to myosin, the filaments contain cardiac myosin-binding protein C (cMyBP-C), which modulates contractility in response to physiological stimuli, and titin, which functions as a scaffold for filament assembly1. Myosin, cMyBP-C and titin are all subject to mutation, which can lead to heart failure. Despite the central importance of cardiac myosin filaments to life, their molecular structure has remained a mystery for 60 years2. Here we solve the structure of the main (cMyBP-C-containing) region of the human cardiac filament using cryo-electron microscopy. The reconstruction reveals the architecture of titin and cMyBP-C and shows how myosin's motor domains (heads) form three different types of motif (providing functional flexibility), which interact with each other and with titin and cMyBP-C to dictate filament architecture and function. The packing of myosin tails in the filament backbone is also resolved. The structure suggests how cMyBP-C helps to generate the cardiac super-relaxed state3; how titin and cMyBP-C may contribute to length-dependent activation4; and how mutations in myosin and cMyBP-C might disturb interactions, causing disease5,6. The reconstruction resolves past uncertainties and integrates previous data on cardiac muscle structure and function. It provides a new paradigm for interpreting structural, physiological and clinical observations, and for the design of potential therapeutic drugs.Pumping of the heart is powered by filaments of the motor protein myosin that pull on actin filaments to generate cardiac contraction. In addition to myosin, the filaments contain cardiac myosin-binding protein C (cMyBP-C), which modulates contractility in response to physiological stimuli, and titin, which functions as a scaffold for filament assembly1. Myosin, cMyBP-C and titin are all subject to mutation, which can lead to heart failure. Despite the central importance of cardiac myosin filaments to life, their molecular structure has remained a mystery for 60 years2. Here we solve the structure of the main (cMyBP-C-containing) region of the human cardiac filament using cryo-electron microscopy. The reconstruction reveals the architecture of titin and cMyBP-C and shows how myosin's motor domains (heads) form three different types of motif (providing functional flexibility), which interact with each other and with titin and cMyBP-C to dictate filament architecture and function. The packing of myosin tails in the filament backbone is also resolved. The structure suggests how cMyBP-C helps to generate the cardiac super-relaxed state3; how titin and cMyBP-C may contribute to length-dependent activation4; and how mutations in myosin and cMyBP-C might disturb interactions, causing disease5,6. The reconstruction resolves past uncertainties and integrates previous data on cardiac muscle structure and function. It provides a new paradigm for interpreting structural, physiological and clinical observations, and for the design of potential therapeutic drugs. Pumping ofthe heart is powered by fllaments ofthe motor protein myosin that pull on actin fllaments to generate cardiac contraction, in addition to myosin, the fllaments contain cardiac myosin-binding protein C (cMyBP-C), which modulates contractility in response to physiological stimuli, and titin, which functions asa scaffold for fllament assembly1. Myosin, cMyBP-C and titin are all subjectto mutation, which can lead to heart failure. Despite the central importance of cardiac myosin fllaments to life, their molecular structure has remained a mystery for 60 years2. Here we solve the structure ofthe main (cMyBP-C-containing) region ofthe human cardiac fllament usingcryo-electron microscopy. The reconstruction revealsthe architecture oftitin and cMyBP-C and shows how myosin's motor domains (heads) form three different types of motif (providing functional flexibility), which interact with each other and with titin and cMyBP-C to dictate filament architecture and function. The packing of myosin tails in the filament backbone is also resolved. The structure suggests how cMyBP-C helpsto generate the cardiac super-relaxed state3; howtitin and cMyBP-C may contribute to length-dependent activation4; and how mutations in myosin and cMyBP-C might disturb interactions, causing disease5 6. The reconstruction resolves past uncertainties and integrates previous data on cardiac muscle structure and function, it provides anew paradigm for interpreting structural, physiological and clinical observations, and for the design of potential therapeutic drugs. Pumping of the heart is powered by filaments of the motor protein myosin that pull on actin filaments to generate cardiac contraction. In addition to myosin, the filaments contain cardiac myosin-binding protein C (cMyBP-C), which modulates contractility in response to physiological stimuli, and titin, which functions as a scaffold for filament assembly 1 . Myosin, cMyBP-C and titin are all subject to mutation, which can lead to heart failure. Despite the central importance of cardiac myosin filaments to life, their molecular structure has remained a mystery for 60 years 2 . Here we solve the structure of the main (cMyBP-C-containing) region of the human cardiac filament using cryo-electron microscopy. The reconstruction reveals the architecture of titin and cMyBP-C and shows how myosin’s motor domains (heads) form three different types of motif (providing functional flexibility), which interact with each other and with titin and cMyBP-C to dictate filament architecture and function. The packing of myosin tails in the filament backbone is also resolved. The structure suggests how cMyBP-C helps to generate the cardiac super-relaxed state 3 ; how titin and cMyBP-C may contribute to length-dependent activation 4 ; and how mutations in myosin and cMyBP-C might disturb interactions, causing disease 5 , 6 . The reconstruction resolves past uncertainties and integrates previous data on cardiac muscle structure and function. It provides a new paradigm for interpreting structural, physiological and clinical observations, and for the design of potential therapeutic drugs. The intricate molecular architecture and interactions of the human cardiac myosin filament offer insights into cardiac physiology, disease and drug therapy. Pumping of the heart is powered by filaments of the motor protein myosin that pull on actin filaments to generate cardiac contraction. In addition to myosin, the filaments contain cardiac myosin-binding protein C (cMyBP-C), which modulates contractility in response to physiological stimuli, and titin, which functions as a scaffold for filament assembly . Myosin, cMyBP-C and titin are all subject to mutation, which can lead to heart failure. Despite the central importance of cardiac myosin filaments to life, their molecular structure has remained a mystery for 60 years . Here we solve the structure of the main (cMyBP-C-containing) region of the human cardiac filament using cryo-electron microscopy. The reconstruction reveals the architecture of titin and cMyBP-C and shows how myosin's motor domains (heads) form three different types of motif (providing functional flexibility), which interact with each other and with titin and cMyBP-C to dictate filament architecture and function. The packing of myosin tails in the filament backbone is also resolved. The structure suggests how cMyBP-C helps to generate the cardiac super-relaxed state ; how titin and cMyBP-C may contribute to length-dependent activation ; and how mutations in myosin and cMyBP-C might disturb interactions, causing disease . The reconstruction resolves past uncertainties and integrates previous data on cardiac muscle structure and function. It provides a new paradigm for interpreting structural, physiological and clinical observations, and for the design of potential therapeutic drugs. Pumping of the heart is powered by filaments of the motor protein myosin, which pull on actin filaments to generate cardiac contraction. In addition to myosin, the filaments contain cardiac myosin-binding protein C (cMyBP-C), which modulates contractility in response to physiological stimuli, and titin, which functions as a scaffold for filament assembly1. Myosin, cMyBP-C and titin are all subject to mutation, which can lead to heart failure. Despite the central importance of cardiac myosin filaments to life, their molecular structure has remained a mystery for 60 years2. Here, we have solved the structure of the main (cMyBP-C-containing) region of the human cardiac filament to 6 Å resolution by cryo-EM. The reconstruction reveals the architecture of titin and cMyBP-C and shows how myosin’s motor domains (heads) form 3 different types of motif (providing functional flexibility), which interact with each other and with titin and cMyBP-C to dictate filament architecture and function. A novel packing of myosin tails in the filament backbone is also resolved. The structure suggests how cMyBP-C helps generate the cardiac super-relaxed state3, how titin and cMyBP-C may contribute to length-dependent activation4, and how mutations in myosin and cMyBP-C might disturb interactions, causing disease5,6. The reconstruction resolves past uncertainties and integrates previous data on cardiac muscle structure and function. It provides a new paradigm for interpreting structural, physiological and clinical observations, and for the design of potential therapeutic drugs. |
| Author | Padrón, Raúl Campbell, Kenneth S. Nguyen, Vu Dutta, Debabrata Craig, Roger |
| AuthorAffiliation | 1 Division of Cell Biology and Imaging, Department of Radiology, University of Massachusetts Chan Medical School, Worcester, MA 01655, USA 2 Department of Physiology and Division of Cardiovascular Medicine, University of Kentucky, Lexington, KY, USA |
| AuthorAffiliation_xml | – name: 1 Division of Cell Biology and Imaging, Department of Radiology, University of Massachusetts Chan Medical School, Worcester, MA 01655, USA – name: 2 Department of Physiology and Division of Cardiovascular Medicine, University of Kentucky, Lexington, KY, USA |
| Author_xml | – sequence: 1 givenname: Debabrata orcidid: 0000-0002-6506-3032 surname: Dutta fullname: Dutta, Debabrata email: debabrata.dutta@umassmed.edu organization: Division of Cell Biology and Imaging, Department of Radiology, University of Massachusetts Chan Medical School – sequence: 2 givenname: Vu surname: Nguyen fullname: Nguyen, Vu organization: Division of Cell Biology and Imaging, Department of Radiology, University of Massachusetts Chan Medical School – sequence: 3 givenname: Kenneth S. orcidid: 0000-0001-5615-5958 surname: Campbell fullname: Campbell, Kenneth S. organization: Department of Physiology and Division of Cardiovascular Medicine, University of Kentucky – sequence: 4 givenname: Raúl orcidid: 0000-0002-1412-2450 surname: Padrón fullname: Padrón, Raúl email: raul.padron@umassmed.edu organization: Division of Cell Biology and Imaging, Department of Radiology, University of Massachusetts Chan Medical School – sequence: 5 givenname: Roger orcidid: 0000-0002-9707-5409 surname: Craig fullname: Craig, Roger email: roger.craig@umassmed.edu organization: Division of Cell Biology and Imaging, Department of Radiology, University of Massachusetts Chan Medical School |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/37914935$$D View this record in MEDLINE/PubMed |
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| DOI | 10.1038/s41586-023-06691-4 |
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| Language | English |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 Author contributions D.D. prepared specimens, performed cryo-EM, and carried out reconstruction, atomic fitting, refinement, structure analysis, and database deposition. V.N. provided computational expertise, analyzed data. K.S.C. provided curated human heart tissue. R.C. and R.P. carried out analysis of the structure, co-wrote the paper, and obtained funding. |
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| Snippet | Pumping of the heart is powered by filaments of the motor protein myosin that pull on actin filaments to generate cardiac contraction. In addition to myosin,... Pumping ofthe heart is powered by fllaments ofthe motor protein myosin that pull on actin fllaments to generate cardiac contraction, in addition to myosin, the... Pumping of the heart is powered by filaments of the motor protein myosin, which pull on actin filaments to generate cardiac contraction. In addition to myosin,... |
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| Title | Cryo-EM structure of the human cardiac myosin filament |
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