1 |
Annexin A6 involvement in the organization of cholesterol-rich membrane microdomains : evidence from cells of the Niemann-Pick type C disease patients and biomimetic lipid monolayersDomoń, Magdalena 13 December 2011 (has links) (PDF)
The Niemann-Pick type C (NPC) disease is a lysosomal lipid storage disorder caused by mutations in one of the two genes NPC1 or NPC2 encoding proteins of the late endosome/lysosome compartment (LE/LY). Defect in these proteins alters vesicular transport and leads to abnormal accumulation of cholesterol (Chol) in LE/LY. There are some lines of evidence suggesting that annexin A6 (AnxA6) participates in vesicular transport of Chol and may interact with membrane domains enriched in Chol and bind Chol. In this work we characterized the membrane microdomains resistant to Triton X-100, i.e., detergent-resistant membranes (DRMs) isolated from NPC patient-derived fibroblasts and from control cells. NPC cells contain a significantly higher amount of DRMs than the control cells that is consistent with the defect in Chol turnover in NPC cells. We also studied the mechanism of AnxA6 involvement in the NPC-induced changes in the membrane organization and showed that in the presence of calcium some AnxA6 molecules associate with the DRMs. This suggests that AnxA6 may play a role in the membrane lateral organization, contributing thus to the etiology of NPC disease. We then focused on the interaction of AnxA6-1 with Chol-rich membranes and on the involvement of its flexible region and VAAEIL sequence in these interactions. For this purpose, kinetics of the interfacial adsorption of human recombinant AnxA6 to Langmuir monolayers containing phosphatidylcholine, Chol and/or cholesteryl acetate were measured. Our data suggest that AnxA6 exhibits the highest affinity to Chol-containing monolayers and that the hydroxyl group of Chol plays a pivotal role in the AnxA6-lipid interactions in vitro.
|
2 |
Annexin A6 involvement in the organization of cholesterol-rich membrane microdomains : evidence from cells of the Niemann-Pick type C disease patients and biomimetic lipid monolayers / Rôle de l’annexine A6 dans l’organisation des microdomaines membranaires enrichis en cholestérol : mise en évidence sur des cellules atteintes de la maladie de Niemann-Pick et des monocouches lipidiques biomimétiquesDomoń, Magdalena 13 December 2011 (has links)
La maladie de Niemann-Pick de type C (NPC) est une lipidose lysosomale complexe due à une mutation d’un des gènes NPC1 ou NPC2, qui codent pour ces protéines localisées dans les compartiments endo-lysosomaux (LE/LY). Leur absence altère le trafic intracellulaire et induit l’accumulation du cholestérol (Chol) dans les LE/LY. De plus, l’AnxA6 semble participer au transport vésiculaire du Chol en interagissant avec les microdomaines membranaires enrichis en Chol, ou avec le Chol lui-même. Dans ce travail, nous avons isolé des microdomaines membranaires résistant au Triton X-100 (également appelés DRMs pour detergent resistant membranes) à partir de lignée cellulaire NPC L1 ou de cellules saines. Les fibroblastes NPC contiennent plus de DRMs que les fibroblastes sains. Ceci semble être corrélé aux problèmes de transport du Chol dans les cellules NPC. Nous avons aussi montré qu’en présence de calcium, une partie de l’AnxA6 est associé aux DRMs, suggérant que l’AnxA6 participe à l’organisation de la membrane et par ce bias à l’étiologie de la maladie de NPC. Nous avons alors analysé les interactions de l’AnxA6-1 avec les microdomaines riches en Chol ainsi que l’implication de sa région flexible et de la séquence VAAEIL dans ces interactions. Leurs interactions avec des monocouches de Langmuir constituées de phosphatidylcholine, Chol et/ou d’acétate de cholestéryle. Nos résultats montrent que l’AnxA6 a la plus grande affinité pour les monocouches contenant du Chol ainsi que l’implication du groupement hydroxyle du Chol lors de ces interactions. / The Niemann-Pick type C (NPC) disease is a lysosomal lipid storage disorder caused by mutations in one of the two genes NPC1 or NPC2 encoding proteins of the late endosome/lysosome compartment (LE/LY). Defect in these proteins alters vesicular transport and leads to abnormal accumulation of cholesterol (Chol) in LE/LY. There are some lines of evidence suggesting that annexin A6 (AnxA6) participates in vesicular transport of Chol and may interact with membrane domains enriched in Chol and bind Chol. In this work we characterized the membrane microdomains resistant to Triton X-100, i.e., detergent-resistant membranes (DRMs) isolated from NPC patient-derived fibroblasts and from control cells. NPC cells contain a significantly higher amount of DRMs than the control cells that is consistent with the defect in Chol turnover in NPC cells. We also studied the mechanism of AnxA6 involvement in the NPC-induced changes in the membrane organization and showed that in the presence of calcium some AnxA6 molecules associate with the DRMs. This suggests that AnxA6 may play a role in the membrane lateral organization, contributing thus to the etiology of NPC disease. We then focused on the interaction of AnxA6-1 with Chol-rich membranes and on the involvement of its flexible region and VAAEIL sequence in these interactions. For this purpose, kinetics of the interfacial adsorption of human recombinant AnxA6 to Langmuir monolayers containing phosphatidylcholine, Chol and/or cholesteryl acetate were measured. Our data suggest that AnxA6 exhibits the highest affinity to Chol-containing monolayers and that the hydroxyl group of Chol plays a pivotal role in the AnxA6-lipid interactions in vitro.
|
Page generated in 0.0152 seconds