Search results for "Pulmonary surfactant-associated protein C"

showing 5 items of 5 documents

Role of pulmonary surfactant protein Sp-C dimerization on membrane fragmentation: An emergent mechanism involved in lung defense and homeostasis.

2020

Surfactant protein C (SP-C) is a protein present in the pulmonary surfactant system that is involved in the biophysical properties of this lipoprotein complex, but it also has a role in lung defense and homeostasis. In this article, we propose that the link between both functions could rely on the ability of SP-C to induce fragmentation of phospholipid membranes and generate small vesicles that serve as support to present different ligands to cells in the lungs. Our results using bimolecular fluorescence complementation and tunable resistive pulse sensing setups suggest that SP-C oligomerization could be the triggering event that causes membrane budding and nanovesiculation. As shown by flu…

0301 basic medicineBiophysicsBiochemistryCell Line03 medical and health sciencesBimolecular fluorescence complementation0302 clinical medicinePulmonary surfactantProtein DomainsHumansAmino Acid SequenceFragmentation (cell biology)Unilamellar LiposomesChemistryVesicleSurfactant protein CCell BiologyMembrane buddingFlow CytometryPulmonary Surfactant-Associated Protein CEndocytosisRecombinant ProteinsCell biology030104 developmental biology030228 respiratory systemMembrane proteinStructural biologyMicroscopy FluorescencePeptidomimeticsProtein MultimerizationDimerizationBiochimica et biophysica acta. Biomembranes

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Production and characterisation of recombinant forms of human pulmonary surfactant protein C (SP-C):Structure and surface activity

2006

Udgivelsesdato: 2006-Apr Surfactant protein C (SP-C) is an essential component for the surface tension-lowering activity of the pulmonary surfactant system. It contains a valine-rich alpha helix that spans the lipid bilayer, and is one of the most hydrophobic proteins known so far. SP-C is also an essential component of various surfactant preparations of animal origin currently used to treat neonatal respiratory distress syndrome (NRDS) in preterm infants. The limited supply of this material and the risk of transmission of infectious agents and immunological reactions have prompted the development of synthetic SP-C-derived peptides or recombinant humanized SP-C for inclusion in new prepar…

BioquímicaRecombinant membrain proteinSurface PropertiesSize-exclusion chromatographyMolecular Sequence DataPhospholipidBiophysicsBiologyBiochemistrylaw.inventionchemistry.chemical_compoundAffinity chromatographyPulmonary surfactantMembranes (Biologia)lawAnimalsHumansPulmonary surfactant-associated protein CAmino Acid SequenceLipid bilayerConserved SequencePhospholipidsMammalsDrug CarriersChromatographySequence Homology Amino AcidSP-CProteïnes de membranaSurfactant protein CPulmonary surfactantCell BiologyPulmonary Surfactant-Associated Protein CRecombinant ProteinsKineticschemistryBiochemistryRecombinant DNALipid-protein interactionPeptidesSequence Alignment

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Pulmonary surfactant protein C containing lipid films at the air-water interface as a model for the surface of lung alveoli.

1995

The pulmonary surfactant lines as a complex monolayer of lipids and proteins the alveolar epithelial surface. The monolayer dynamically adapts the surface tension of this interface to the varying surface areas during inhalation and exhalation. Its presence in the alveoli is thus a prerequisite for a proper lung function. The lipid moiety represents about 90% of the surfactant and contains mainly dipalmitoylphosphatidylcholine (DPPC) and phosphatidylglycerol (PG). The surfactant proteins involved in the surface tension adaption are called SP-A, SP-B and SP-C. The aim of the present investigation is to analyse the properties of monolayer films made from pure SP-C and from mixtures of DPPC, DP…

LangmuirChemical PhenomenaSurface PropertiesProteolipidsLipid BilayersMolecular Sequence DataBiophysicsPalmitic AcidsBiophysical PhenomenaSurface tensionchemistry.chemical_compoundPulmonary surfactantEllipsometryMonolayerHumansPulmonary surfactant-associated protein CAmino Acid SequenceMolecular BiologyPhospholipidsPhosphatidylglycerolChemistryChemistry PhysicalAirtechnology industry and agricultureWaterMembranes ArtificialPulmonary SurfactantsCell BiologyLipid MetabolismLipidsPulmonary AlveoliCrystallographyChemical engineeringDipalmitoylphosphatidylcholinelipids (amino acids peptides and proteins)Protein BindingMolecular membrane biology

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Palmitoylation of Pulmonary Surfactant Protein SP-C Is Critical for Its Functional Cooperation with SP-B to Sustain Compression/Expansion Dynamics in…

2010

AbstractRecent data suggest that a functional cooperation between surfactant proteins SP-B and SP-C may be required to sustain a proper compression-expansion dynamics in the presence of physiological proportions of cholesterol. SP-C is a dually palmitoylated polypeptide of 4.2 kDa, but the role of acylation in SP-C activity is not completely understood. In this work we have compared the behavior of native palmitoylated SP-C and recombinant nonpalmitoylated versions of SP-C produced in bacteria to get a detailed insight into the importance of the palmitic chains to optimize interfacial performance of cholesterol-containing surfactant films. We found that palmitoylation of SP-C is not essenti…

LipoylationSus scrofaBiophysicsAcute respiratory distressModels Biologicallaw.inventionAcylationchemistry.chemical_compoundPalmitoylationPulmonary surfactantlawAnimalsPulmonary Surfactant-Associated Protein BChemistryCholesterolMembraneTemperaturePulmonary SurfactantsBiofísicaPulmonary Surfactant-Associated Protein CBiomechanical PhenomenaCholesterolBiochemistryBiophysicsRecombinant DNAlipids (amino acids peptides and proteins)AdsorptionProteïnes

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Interfacial behavior of recombinant forms of human pulmonary surfactant protein SP-C.

2012

The behavior at air-liquid interfaces of two recombinant versions of human surfactant protein SP-C has been characterized in comparison with that of native palmitoylated SP-C purified from porcine lungs. Both native and recombinant proteins promoted interfacial adsorption of dipalmitoylphosphatidylcholine bilayers to a limited extent, but catalyzed very rapid formation of films from different lipid mixtures containing both zwitterionic and anionic phospholipids. Once at the interface, the recombinant variants exhibited compression-driven structural transitions, consistent with changes in the orientation of the deacylated N-terminal segment, which were not observed in the native protein. Com…

Models MolecularProtein ConformationSurface PropertiesMolecular Sequence DataCatalysislaw.inventionchemistry.chemical_compoundAdsorptionPulmonary surfactantlawMoleElectrochemistryMoleculeNative proteinAnimalsHumansGeneral Materials ScienceAmino Acid SequenceSpectroscopyPhospholipidsSurfaces and InterfacesCondensed Matter PhysicsPulmonary Surfactant-Associated Protein CPeptide FragmentsRecombinant ProteinschemistryBiochemistryDipalmitoylphosphatidylcholineRecombinant DNABiophysicsLangmuir : the ACS journal of surfaces and colloids

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