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NSAIDs Interactions with Membranes: A Biophysical Approach

Title
NSAIDs Interactions with Membranes: A Biophysical Approach
Type
Article in International Scientific Journal
Year
2011
Authors
Claudia Nunes
(Author)
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Gerald Brezesinski
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Catarina Pereira Leite
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Jose L F C Lima
(Author)
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Salette Reis
(Author)
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Marlene Lucio
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Journal
Title: LangmuirImported from Authenticus Search for Journal Publications
Vol. 27 No. 8
Pages: 10847-10858
ISSN: 0743-7463
Scientific classification
FOS: Engineering and technology > Materials engineering
Other information
Authenticus ID: P-002-MMK
Abstract (EN): This work focuses on the interaction of four representative NSAIDs (nimesulide, indomethacin, meloxicam, and piroxicam) with different membrane models (liposomes, monolayers, and supported lipid bilayers), at different pH values, that mimic the pH conditions of normal (pH 7.4) and inflamed cells (pH 5.0). All models are composed of 1,2-dipalmitoyl-sn-glycero-3-phosphocholine (DPPC) which is a representative phospholipid of most cellular membranes. Several biophysical techniques were employed: Fluorescence steady-state anisotropy to study the effects of NSAIDs in membrane microviscosity and thus to assess the main phase transition of DPPC, surface pressure-area isotherms to evaluate the adsorption and penetration of NSAIDs into the membrane, IRRAS to acquire structural information of DPPC monolayers upon interaction with the drugs, and AFM to study the changes in surface topography of the lipid bilayers caused by the interaction with NSAIDs. The NSAIDs show pronounced interactions with the lipid membranes at both physiological and inflammatory conditions. Liposomes, monolayers, and supported lipid bilayers experiments allow the conclusion that the pH of the medium is an essential parameter when evaluating drug membrane interactions, because it conditions the structure of the membrane and the ionization state of NSAIDs, thereby influencing the interactions between these drugs and the lipid membranes. The applied models and techniques provided detailed information about different aspects of the drug-membrane interaction offering valuable information to understand the effect of these drugs on their target membrane-associated enzymes and their side effects at the gastrointestinal level.
Language: English
Type (Professor's evaluation): Scientific
No. of pages: 12
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