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Literature DB >> 22261060

Self-segregation of myelin membrane lipids in model membranes.

Larisa Yurlova¹, Nicoletta Kahya, Shweta Aggarwal, Hermann-Josef Kaiser, Salvatore Chiantia, Mostafa Bakhti, Yael Pewzner-Jung, Oshrit Ben-David, Anthony H Futerman, Britta Brügger, Mikael Simons.

Abstract

Rapid conduction of nerve impulses requires coating of axons by myelin sheaths, which are multilamellar, lipid-rich membranes produced by oligodendrocytes in the central nervous system. To act as an insulator, myelin has to form a stable and firm membrane structure. In this study, we have analyzed the biophysical properties of myelin membranes prepared from wild-type mice and from mouse mutants that are unable to form stable myelin. Using C-Laurdan and fluorescence correlation spectroscopy, we find that lipids are tightly organized and highly ordered in myelin isolated from wild-type mice, but not from shiverer and ceramide synthase 2 null mice. Furthermore, only myelin lipids from wild-type mice laterally segregate into physically distinct lipid phases in giant unilamellar vesicles in a process that requires very long chain glycosphingolipids. Taken together, our findings suggest that oligodendrocytes exploit the potential of lipids to self-segregate to generate a highly ordered membrane for electrical insulation of axons.

Entities: Chemical Disease Gene Species

Mesh：

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Year: 2011 PMID： 22261060 PMCID： PMC3297774 DOI： 10.1016/j.bpj.2011.10.026

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

57 in total

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Authors: Ben Emery
Journal: Science Date: 2010-11-05 Impact factor: 47.728

2. Modular scanning FCS quantifies receptor-ligand interactions in living multicellular organisms.

Authors: Jonas Ries; Shuizi Rachel Yu; Markus Burkhardt; Michael Brand; Petra Schwille
Journal: Nat Methods Date: 2009-08-02 Impact factor: 28.547

3. Effect of line tension on the lateral organization of lipid membranes.

Authors: Ana J García-Sáez; Salvatore Chiantia; Petra Schwille
Journal: J Biol Chem Date: 2007-09-11 Impact factor: 5.157

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Journal: Biochim Biophys Acta Date: 1998-03-06

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Authors: R G Oliveira; B Maggio
Journal: Neurochem Res Date: 2000-01 Impact factor: 3.996

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Authors: T D Bird; D F Farrell; S M Sumi
Journal: J Neurochem Date: 1978-07 Impact factor: 5.372

7. Structure of myelin lipid bilayers. Changes during maturation.

Authors: N P Franks; V Melchior; D A Kirshner; D L Caspar
Journal: J Mol Biol Date: 1982-02-25 Impact factor: 5.469

8. Differential lipid packing abilities and dynamics in giant unilamellar vesicles composed of short-chain saturated glycerol-phospholipids, sphingomyelin and cholesterol.

Authors: Nicoletta Kahya; Dag Scherfeld; Petra Schwille
Journal: Chem Phys Lipids Date: 2005-04-18 Impact factor: 3.329

9. A critical role for ceramide synthase 2 in liver homeostasis: II. insights into molecular changes leading to hepatopathy.

Authors: Yael Pewzner-Jung; Ori Brenner; Svantje Braun; Elad L Laviad; Shifra Ben-Dor; Ester Feldmesser; Shirley Horn-Saban; Daniela Amann-Zalcenstein; Calanit Raanan; Tamara Berkutzki; Racheli Erez-Roman; Oshrit Ben-David; Michal Levy; Dorin Holzman; Hyejung Park; Abraham Nyska; Alfred H Merrill; Anthony H Futerman
Journal: J Biol Chem Date: 2010-01-28 Impact factor: 5.157

Review 10. Mechanisms of axon ensheathment and myelin growth.

Authors: Diane L Sherman; Peter J Brophy
Journal: Nat Rev Neurosci Date: 2005-09 Impact factor: 34.870

10 in total

Review 1. Myelin architecture: zippering membranes tightly together.

Authors: Mostafa Bakhti; Shweta Aggarwal; Mikael Simons
Journal: Cell Mol Life Sci Date: 2013-10-29 Impact factor: 9.261

2. Protection of a ceramide synthase 2 null mouse from drug-induced liver injury: role of gap junction dysfunction and connexin 32 mislocalization.

Authors: Woo-Jae Park; Joo-Won Park; Racheli Erez-Roman; Aviram Kogot-Levin; Jessica R Bame; Boaz Tirosh; Ann Saada; Alfred H Merrill; Yael Pewzner-Jung; Anthony H Futerman
Journal: J Biol Chem Date: 2013-09-09 Impact factor: 5.157

Review 3. Sphingolipid Players in Multiple Sclerosis: Their Influence on the Initiation and Course of the Disease.

Authors: Maria Podbielska; Toshio Ariga; Anna Pokryszko-Dragan
Journal: Int J Mol Sci Date: 2022-05-10 Impact factor: 6.208

4. Ablation of ceramide synthase 2 causes chronic oxidative stress due to disruption of the mitochondrial respiratory chain.

Authors: Hila Zigdon; Aviram Kogot-Levin; Joo-Won Park; Ruth Goldschmidt; Samuel Kelly; Alfred H Merrill; Avigdor Scherz; Yael Pewzner-Jung; Ann Saada; Anthony H Futerman
Journal: J Biol Chem Date: 2013-01-02 Impact factor: 5.157

Review 5. Behavioral experiences as drivers of oligodendrocyte lineage dynamics and myelin plasticity.

Authors: Lyl Tomlinson; Cindy V Leiton; Holly Colognato
Journal: Neuropharmacology Date: 2015-09-28 Impact factor: 5.250

6. Reduced ceramide synthase 2 activity causes progressive myoclonic epilepsy.

Authors: Mai-Britt Mosbech; Anne S B Olsen; Ditte Neess; Oshrit Ben-David; Laura L Klitten; Jan Larsen; Anne Sabers; John Vissing; Jørgen E Nielsen; Lis Hasholt; Andres D Klein; Michael M Tsoory; Helle Hjalgrim; Niels Tommerup; Anthony H Futerman; Rikke S Møller; Nils J Færgeman
Journal: Ann Clin Transl Neurol Date: 2014-01-13 Impact factor: 4.511