The Structure and Function of Lung Surfactant: Effect of Amyloid Fibril Formation
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Date
2009-05-21T19:09:49Z
Authors
Hane, Francis
Advisor
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Publisher
University of Waterloo
Abstract
The alveoli of mammalian lungs are covered in a thin lipid film referred to as pulmonary surfactant. The primary purpose of pulmonary surfactant is to reduce the surface tension of the air/liquid interface allowing breathing with minimal effort required.
We investigated the effect of addition of cholesterol and amyloid-β peptide on structure and function of Bovine Lung Extract Surfactant (BLES) and model lipid films.
In our first experiment, we have demonstrated the effect of amyloid-β and cholesterol on lipid films of DPPC, DPPC-DOPG and BLES. We saw that cholesterol inhibits multilayer formation in all monolayers. Amyloid-β increases multilayer formation in DPPC and DPPC-DOPG, but reduced multilayer formation in BLES. When cholesterol and amyloid-β is added to BLES, 1% amyloid-β is inconsequential, whereas 10% amyloid-β allows BLES to regain some of its surfactant function.
In our second experiment, we observed that for bothanionic DOPG and cationic DOTAP films which are in the fluid phase, amyloid-β interacts with the bilayer much quicker than in zwitterionic DPPC which is in the gel phase. Approaching 24 hours, we see small fibrils form on the bilayer, but these fibrils are considerably smaller than those formed when amyloid-β is incubated in solution. For fluid phase bilayer membrane, disruption is also observed.
We investigated the effect of addition of cholesterol and amyloid-β peptide on structure and function of Bovine Lung Extract Surfactant (pulmonary surfactant BLES) and model lipid films.
In our first experiment, we have demonstrated the effect of amyloid-β and cholesterol on lipid films of DPPC, DPPC-DOPG and BLES. We saw that cholesterol inhibits multilayer formation in all monolayers. Amyloid-β increases multilayer formation in DPPC and DPPC-DOPG, but reduced multilayer formation in BLES. When cholesterol and amyloid-β is added to BLES, 1% amyloid-β is in consequential, whereas 10% amyloid-β allows BLES to regain some of its surfactant function.
In our second experiment, we observed that in anionic DOPG films, amyloid-β inserts into the bilayer much quicker than in zwitterionic DPPC. Approaching 24 hours, we see small fibrils form in the bilayer, but these fibrils are considerably smaller than those formed when amyloid-β is incubated in solution.
Description
Keywords
Amyloid, Pulmonary Surfactant, Lung Surfactant, Amyloidosis