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Pulmonary Surfactant Lipid Reorganization Induced by the Adsorption of the Oligomeric Surfactant Protein B Complex
J. Liekkinen, G. Enkavi, M. Javanainen, B. Olmeda, J. Pérez-Gil, I. Vattulainen,
Jazyk angličtina Země Velká Británie
Typ dokumentu časopisecké články, práce podpořená grantem
- MeSH
- fosfolipidy chemie MeSH
- konformace proteinů MeSH
- lipidové dvojvrstvy chemie metabolismus MeSH
- molekulární modely MeSH
- multimerizace proteinu MeSH
- plicní surfaktanty chemie MeSH
- protein B asociovaný s plicním surfaktantem chemie metabolismus MeSH
- simulace molekulární dynamiky MeSH
- vazebná místa MeSH
- Publikační typ
- časopisecké články MeSH
- práce podpořená grantem MeSH
Surfactant protein B (SP-B) is essential in transferring surface-active phospholipids from membrane-based surfactant complexes into the alveolar air-liquid interface. This allows maintaining the mechanical stability of the surfactant film under high pressure at the end of expiration; therefore, SP-B is crucial in lung function. Despite its necessity, the structure and the mechanism of lipid transfer by SP-B have remained poorly characterized. Earlier, we proposed higher-order oligomerization of SP-B into ring-like supramolecular assemblies. In the present work, we used coarse-grained molecular dynamics simulations to elucidate how the ring-like oligomeric structure of SP-B determines its membrane binding and lipid transfer. In particular, we explored how SP-B interacts with specific surfactant lipids, and how consequently SP-B reorganizes its lipid environment to modulate the pulmonary surfactant structure and function. Based on these studies, there are specific lipid-protein interactions leading to perturbation and reorganization of pulmonary surfactant layers. Especially, we found compelling evidence that anionic phospholipids and cholesterol are needed or even crucial in the membrane binding and lipid transfer function of SP-B. Also, on the basis of the simulations, larger oligomers of SP-B catalyze lipid transfer between adjacent surfactant layers. Better understanding of the molecular mechanism of SP-B will help in the design of therapeutic SP-B-based preparations and novel treatments for fatal respiratory complications, such as the acute respiratory distress syndrome.
Computational Physics Laboratory Tampere University Tampere Finland
Department of Biochemistry Faculty of Biology Complutense University of Madrid Madrid Spain
Department of Physics University of Helsinki Helsinki Finland
Hospital 12 Octubre Research Institute Madrid Spain
Institute of Organic Chemistry and Biochemistry Czech Academy of Sciences Prague 6 Czech Republic
Citace poskytuje Crossref.org
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- $a Liekkinen, Juho $u Department of Physics, University of Helsinki, Helsinki, Finland; Computational Physics Laboratory, Tampere University, Tampere, Finland.
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- $a Surfactant protein B (SP-B) is essential in transferring surface-active phospholipids from membrane-based surfactant complexes into the alveolar air-liquid interface. This allows maintaining the mechanical stability of the surfactant film under high pressure at the end of expiration; therefore, SP-B is crucial in lung function. Despite its necessity, the structure and the mechanism of lipid transfer by SP-B have remained poorly characterized. Earlier, we proposed higher-order oligomerization of SP-B into ring-like supramolecular assemblies. In the present work, we used coarse-grained molecular dynamics simulations to elucidate how the ring-like oligomeric structure of SP-B determines its membrane binding and lipid transfer. In particular, we explored how SP-B interacts with specific surfactant lipids, and how consequently SP-B reorganizes its lipid environment to modulate the pulmonary surfactant structure and function. Based on these studies, there are specific lipid-protein interactions leading to perturbation and reorganization of pulmonary surfactant layers. Especially, we found compelling evidence that anionic phospholipids and cholesterol are needed or even crucial in the membrane binding and lipid transfer function of SP-B. Also, on the basis of the simulations, larger oligomers of SP-B catalyze lipid transfer between adjacent surfactant layers. Better understanding of the molecular mechanism of SP-B will help in the design of therapeutic SP-B-based preparations and novel treatments for fatal respiratory complications, such as the acute respiratory distress syndrome.
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- $a Enkavi, Giray $u Department of Physics, University of Helsinki, Helsinki, Finland.
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- $a Javanainen, Matti $u Department of Physics, University of Helsinki, Helsinki, Finland; Computational Physics Laboratory, Tampere University, Tampere, Finland; Institute of Organic Chemistry and Biochemistry, Czech Academy of Sciences, Prague 6, Czech Republic.
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- $a Olmeda, Barbara $u Department of Biochemistry, Faculty of Biology, Complutense University of Madrid, Madrid, Spain; "Hospital 12 Octubre (imas12)" Research Institute, Madrid, Spain.
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- $a Vattulainen, Ilpo $u Department of Physics, University of Helsinki, Helsinki, Finland; Computational Physics Laboratory, Tampere University, Tampere, Finland; MEMPHYS-Centre for Biomembrane Physics. Electronic address: ilpo.vattulainen@helsinki.fi.
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