Dynamic surface activity of a fully synthetic phospholipase-resistant lipid/peptide lung surfactant.

Dynamic surface activity of a fully synthetic phospholipase-resistant lipid/peptide lung surfactant.

This study examines the surface activity and resistance to phospholipase degradation of a fully-synthetic lung surfactant containing a novel diether phosphonolipid (DEPN-8) plus a 34 amino acid peptide (Mini-B) related to native surfactant protein (SP)-B. Activity studies used adsorption, pulsating...

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Main Authors: Frans J Walther, Alan J Waring, Jose M Hernandez-Juviel, Larry M Gordon, Adrian L Schwan, Chun-Ling Jung, Yusuo Chang, Zhengdong Wang, Robert H Notter
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2007-10-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC2013942?pdf=render
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spelling doaj-c1c6394b58a846bca8d3586f615ca3c72020-11-25T00:05:34ZengPublic Library of Science (PLoS)PLoS ONE1932-62032007-10-01210e103910.1371/journal.pone.0001039Dynamic surface activity of a fully synthetic phospholipase-resistant lipid/peptide lung surfactant.Frans J WaltherAlan J WaringJose M Hernandez-JuvielLarry M GordonAdrian L SchwanChun-Ling JungYusuo ChangZhengdong WangRobert H NotterThis study examines the surface activity and resistance to phospholipase degradation of a fully-synthetic lung surfactant containing a novel diether phosphonolipid (DEPN-8) plus a 34 amino acid peptide (Mini-B) related to native surfactant protein (SP)-B. Activity studies used adsorption, pulsating bubble, and captive bubble methods to assess a range of surface behaviors, supplemented by molecular studies using Fourier transform infrared (FTIR) spectroscopy, circular dichroism (CD), and plasmon resonance. Calf lung surfactant extract (CLSE) was used as a positive control.DEPN-8+1.5% (by wt.) Mini-B was fully resistant to degradation by phospholipase A(2) (PLA(2)) in vitro, while CLSE was severely degraded by this enzyme. Mini-B interacted with DEPN-8 at the molecular level based on FTIR spectroscopy, and had significant plasmon resonance binding affinity for DEPN-8. DEPN-8+1.5% Mini-B had greatly increased adsorption compared to DEPN-8 alone, but did not fully equal the very high adsorption of CLSE. In pulsating bubble studies at a low phospholipid concentration of 0.5 mg/ml, DEPN-8+1.5% Mini-B and CLSE both reached minimum surface tensions <1 mN/m after 10 min of cycling. DEPN-8 (2.5 mg/ml)+1.5% Mini-B and CLSE (2.5 mg/ml) also reached minimum surface tensions <1 mN/m at 10 min of pulsation in the presence of serum albumin (3 mg/ml) on the pulsating bubble. In captive bubble studies, DEPN-8+1.5% Mini-B and CLSE both generated minimum surface tensions <1 mN/m on 10 successive cycles of compression/expansion at quasi-static and dynamic rates.These results show that DEPN-8 and 1.5% Mini-B form an interactive binary molecular mixture with very high surface activity and the ability to resist degradation by phospholipases in inflammatory lung injury. These characteristics are promising for the development of related fully-synthetic lipid/peptide exogenous surfactants for treating diseases of surfactant deficiency or dysfunction.http://europepmc.org/articles/PMC2013942?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Frans J Walther
Alan J Waring
Jose M Hernandez-Juviel
Larry M Gordon
Adrian L Schwan
Chun-Ling Jung
Yusuo Chang
Zhengdong Wang
Robert H Notter
spellingShingle Frans J Walther
Alan J Waring
Jose M Hernandez-Juviel
Larry M Gordon
Adrian L Schwan
Chun-Ling Jung
Yusuo Chang
Zhengdong Wang
Robert H Notter
Dynamic surface activity of a fully synthetic phospholipase-resistant lipid/peptide lung surfactant.
PLoS ONE
author_facet Frans J Walther
Alan J Waring
Jose M Hernandez-Juviel
Larry M Gordon
Adrian L Schwan
Chun-Ling Jung
Yusuo Chang
Zhengdong Wang
Robert H Notter
author_sort Frans J Walther
title Dynamic surface activity of a fully synthetic phospholipase-resistant lipid/peptide lung surfactant.
title_short Dynamic surface activity of a fully synthetic phospholipase-resistant lipid/peptide lung surfactant.
title_full Dynamic surface activity of a fully synthetic phospholipase-resistant lipid/peptide lung surfactant.
title_fullStr Dynamic surface activity of a fully synthetic phospholipase-resistant lipid/peptide lung surfactant.
title_full_unstemmed Dynamic surface activity of a fully synthetic phospholipase-resistant lipid/peptide lung surfactant.
title_sort dynamic surface activity of a fully synthetic phospholipase-resistant lipid/peptide lung surfactant.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2007-10-01
description This study examines the surface activity and resistance to phospholipase degradation of a fully-synthetic lung surfactant containing a novel diether phosphonolipid (DEPN-8) plus a 34 amino acid peptide (Mini-B) related to native surfactant protein (SP)-B. Activity studies used adsorption, pulsating bubble, and captive bubble methods to assess a range of surface behaviors, supplemented by molecular studies using Fourier transform infrared (FTIR) spectroscopy, circular dichroism (CD), and plasmon resonance. Calf lung surfactant extract (CLSE) was used as a positive control.DEPN-8+1.5% (by wt.) Mini-B was fully resistant to degradation by phospholipase A(2) (PLA(2)) in vitro, while CLSE was severely degraded by this enzyme. Mini-B interacted with DEPN-8 at the molecular level based on FTIR spectroscopy, and had significant plasmon resonance binding affinity for DEPN-8. DEPN-8+1.5% Mini-B had greatly increased adsorption compared to DEPN-8 alone, but did not fully equal the very high adsorption of CLSE. In pulsating bubble studies at a low phospholipid concentration of 0.5 mg/ml, DEPN-8+1.5% Mini-B and CLSE both reached minimum surface tensions <1 mN/m after 10 min of cycling. DEPN-8 (2.5 mg/ml)+1.5% Mini-B and CLSE (2.5 mg/ml) also reached minimum surface tensions <1 mN/m at 10 min of pulsation in the presence of serum albumin (3 mg/ml) on the pulsating bubble. In captive bubble studies, DEPN-8+1.5% Mini-B and CLSE both generated minimum surface tensions <1 mN/m on 10 successive cycles of compression/expansion at quasi-static and dynamic rates.These results show that DEPN-8 and 1.5% Mini-B form an interactive binary molecular mixture with very high surface activity and the ability to resist degradation by phospholipases in inflammatory lung injury. These characteristics are promising for the development of related fully-synthetic lipid/peptide exogenous surfactants for treating diseases of surfactant deficiency or dysfunction.
url http://europepmc.org/articles/PMC2013942?pdf=render
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