Cholesterol favors the anchorage of human dystrophin repeats 16 to 21 in membrane at physiological surface pressure |
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Authors: | Sarah Ameziane-Le Hir Céline Raguénès-Nicol Gilles Paboeuf Aurélie Nicolas Elisabeth Le Rumeur Véronique Vié |
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Institution: | 1. Université de Rennes 1, 35042 Rennes, France;2. UMR CNRS 6251, Institut de physique de Rennes, Campus Beaulieu, F-35042 Rennes, France;3. UMR CNRS 6290, Equipe SIM, Campus Villejean, F-35043 Rennes, France;4. Université Européenne de Bretagne, 5 boulevard Laënnec, F-35000 Rennes, France |
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Abstract: | Dystrophin (DYS) is a filamentous protein that connects the cytoskeleton and the extracellular matrix via the sarcolemma, conferring resistance to muscular cells. In this study, interactions between the DYS R16–21 fragment and lipids were examined using Langmuir films made of anionic and zwitterionic lipids. The film fluidity was modified by the addition of 15% cholesterol. Whatever the lipid mixture examined, at low surface pressure (20 mN/m) few differences appeared on the protein insertion and the presence of cholesterol did not affect the protein/lipid interactions. At high surface pressure (30 mN/m), the protein insertion was very low and occurred only in zwitterionic films in the liquid-expanded phase. In anionic films, electrostatic interactions prevented the protein insertion outright, and caused accumulation of the protein on the hydrophilic part of the monolayer. Addition of cholesterol to both lipid mixtures drastically modified the protein–lipid interactions: the DYS R16–21 insertion increased and its organization in the monolayer appeared to be more homogeneous. The presence of accessible cholesterol recognition amino-acid consensus sequences in this fragment may enhance the protein/membrane binding at physiological lateral pressure. These results suggest that the anchorage of dystrophin to the membrane in vivo may be stabilized by cholesterol-rich nano-domains in the inner leaflet of sarcolemma. |
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Keywords: | Atomic force microscopy Langmuir film Muscular dystrophy Protein lipid interaction CRAC sequence Spectrin superfamily |
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