Component-specific surface and physiological activity in bovine-derived lung surfactants

Component-specific surface and physiological activity in bovine-derived lung surfactants

Composition, surface activity and effects on pressure–volume ( P– V) mechanics are examined for lavaged calf lung surfactant (LS) and the clinical exogenous surfactants Infasurf and Survanta. Lavaged LS and Infasurf had closely-matching compositions of phospholipids and neutral lipids. Survanta had...

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Bibliographic Details
Published in:Chemistry and physics of lipids Vol. 114; no. 1; pp. 21 - 34
Main Authors: Notter, Robert H, Wang, Z, Egan, E.A, Holm, B.A
Format: Journal Article
Language:English
Published: Ireland Elsevier Ireland Ltd 2002
Subjects:
Adsorption
Animals
Biological Products
Biomechanical Phenomena
Cattle
Component activity
Exogenous surfactants
In Vitro Techniques
Infasurf
Lipids - analysis
Lung - drug effects
Lung - metabolism
Lung - physiology
Lung surfactant
Lung Volume Measurements
Male
Pulmonary Surfactant-Associated Protein B - analysis
Pulmonary Surfactant-Associated Protein B - pharmacokinetics
Pulmonary Surfactant-Associated Protein B - pharmacology
Pulmonary Surfactants - analysis
Pulmonary Surfactants - pharmacokinetics
Pulmonary Surfactants - pharmacology
Rats
Rats, Wistar
Surface Tension
Survanta
Component activity
Infasurf
Lung surfactant
Exogenous surfactants
Survanta
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Summary:Composition, surface activity and effects on pressure–volume ( P– V) mechanics are examined for lavaged calf lung surfactant (LS) and the clinical exogenous surfactants Infasurf and Survanta. Lavaged LS and Infasurf had closely-matching compositions of phospholipids and neutral lipids. Survanta had higher levels of free fatty acids and triglycerides consistent with its content of added synthetic palmitic acid and tripalmitin. Infasurf and Survanta both contained less total protein than LS because of extraction with hydrophobic solvents, but the total protein content relative to phospholipid in Survanta was about 45% lower than in Infasurf. This difference was primarily due to surfactant protein (SP)-B, which was present by ELISA at a mean weight percent relative to phospholipid of 1.04% in LS, 0.90% in Infasurf, and 0.044% in Survanta. Studies on component fractions separated by gel permeation chromatography showed that SP-B was a major contributor to the adsorption, dynamic surface activity, and P– V mechanical effects of Infasurf, which approached whole LS in magnitude. Survanta had lower adsorption, higher minimum surface tension, and a smaller effect on surfactant-deficient P– V mechanics consistent with minimal contributions from SP-B. Addition of 0.05% by weight of purified bovine SP-B to Survanta did not improve surface or physiological activity, but added 0.7% SP-B improved adsorption, dynamic surface tension lowering, and P– V activity to levels similar to Infasurf. The SP-B content of lung surfactants appears to be a crucial factor in their surface activity and efficacy in improving surfactant-deficient pulmonary P– V mechanics.
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ISSN:0009-3084
1873-2941
DOI:10.1016/S0009-3084(01)00197-9