Three decades of Questions on Lipid Rafts

1. Three decades of Questions on Lipid Rafts Whitney Stutts

2. Outline • What are lipid rafts? • Why do they form? • What methods are used to study lipid rafts? • What effects do they have on eukaryotes? • Why all the controversy?

3. What are lipid rafts? • “Lipid rafts are small (10-200nm), heterogeneous, highly dynamic, sterol- and sphingolipid-enriched domains that compartmentalize cellular processes.” ~ 2006 Keystone Symposium

4. What are lipid rafts? • Cholesterol and sphingolipid-enriched membrane microdomains or platforms • Cholesterol levels double • Sphingomyelin levels elevated by 50% • Concentrate and segregate proteins within the plane of the bilayer • More ordered and tightly packed than surrounding bilayer • Float freely in Lcbilayer

5. Video • Lipid Rafts http://multimedia.mcb.harvard.edu/anim_innerlife.html

6. Two types of lipid rafts • Caveolae: small, flask-shaped invaginations of the plasma membrane enriched in caveolin • Planar lipid rafts: found in neurons and enriched in flotillin • Caleolin and flotillin recruit signaling proteins • Signaling can be promoted or dampened

7. Raft Proteins • “True resident proteins” • GPI-anchored proteins-prion protein (PrPc) • Caveolin • Flotillin • Signaling proteins • G-protein, non-receptor tyrosine kinases • Cytoskeletal/Adhesion proteins • actin, myosin, vinculin, cofilin, cadherin, ezrin

8. Why do they form?

9. Why do they form? Cholesterol • Cholesterol is the dynamic “glue” that holds the raft together • Saturation • Hydroxyl H-bonding with amide • Up to 25% of cholesterol is found in the brain…CNS? • When removed, most proteins dissociate from rafts

10. Misconception • Rafts contain only phospholipids with fully saturated acyl chains….FALSE! • Most glycerophospholipids in membrane rafts contain at least one monounsaturated acyl chain • Sphygomyelin- usually saturated chains but when unsaturated the DB is located at C15

11. Why do rafts form? • Driving force- line tension: energy required to create a boundary between the raft and the surrounding membrane • Raft thickness Hydrophobic mismatch • contrast in thickness line tension • Results in larger, more circular rafts which reduce line tension and energetic cost of the raft interface length

12. What methods are used to study lipid rafts? • DRM Isolation - lipid rafts are insoluble in cold non-ionic detergents (Triton X-100) • Electon microscopy - determines location of raft components and can detect clustering of proteins • FRET – used to determine whether two raft components are spatially close • FRAP - probe for the association of proteins to lipid rafts and study diffusion of proteins in lipid rafts • Manipulation of cholesterol • Sequestration • Depletion or removal • Inhibition of cholesterol synthesis

13. What effects do rafts have on eukaryotes? • Organizing centers-assembly of signaling molecules • Signaling can be promoted or dampened • Effects membrane fluidity • Acyl chain fluidity • Lateral diffusion • Involved in trafficking of membrane proteins • Regulation of neurotransmission and receptor trafficking • Neurotrophin receptors embedded in rafts

14. Hijacking Viruses • HIV virus • Budding may occur from lipid rafts • Influenza virus • Raft-associated glycoproteins in envelope

15. Disorders & Diseases • Mood disorders • Therapeutic efficacy of antidepressants • Alzheimer’s disease • Platforms for production of amyloid-β (neurotoxic protein) • Prion disorder • Normal prion protein (PrPc) is converted to abnormal proteins (PrPsc) in lipid rafts (GPI anchor required)

16. Why all the controversy? • Problems with biomembranes • Lipid rafts are too small to be resolved by light microscopy • Difficult to study lipid rafts in intact cells • Not in thermodynamic equilibrium

17. Why all the controversy? • Problems with synthetic membranes • Lower concentration of proteins • Difficult to model membrane-cytoskeletal interactions • Lack natural lipid asymmetry • Studied under equilibrium conditions

18. More Questions • What are the effects of membrane protein levels? • What is the physiological function of lipid rafts? • What effect does flux of membrane lipids have on raft formation? • What effect do diet and drugs have on lipid rafts? • What effect do proteins located at raft boundaries have on lipid rafts?

19. Works Cited • Allen, John A. "Lipid raft microdomains and neurotransmitter signaling." Nature 8 (2007): 128-40. • Benarroch, Eduardo E. "Lipid rafts, protein scaffolds, and neurologic disease." Neurology 69 (2007): 1635-639. • Hamasaki, Dr. Toshikazu. "Tutorial 2, Plasma Membrane." UCLA. 22 Feb. 2009. • Jacobson, Ken. "Lipid rafts: at a crossroad between cell biology and physics." Nature Cell Biology 9 (2007): 7-13. • Jacques Fantini, Nicolas Garmy, RadhiaMahfoud and NouaraYahi (2002) Lipid rafts: structure, function and role in HIV, Alzheimer’s and prion diseases. Exp. Rev. Mol. Med. 20 December, http://www.expertreviews.org/02005392h.htm • Korade, Zeljka. "Lipid rafts, cholesterol, and the brain." Neuropharmacology 55 (2008): 1265-273. • Luckey, Mary. Membrane Structural Biology : With Biochemical and Biophysical Foundations. New York: Cambridge UP, 2008. • Pike, Linda J. "The Challenge of Lipid Rafts." Journal of Lipid Research Oct (2008): 1-17. • Simons, Kai, and Ehehalt, R. "Cholesterol, lipid rafts, and disease." The Journal of Clinical Invesigation 110 (2002): 597-603. • Simons, Kai. "Lipid Rafts and Signal Transduction." Nature Reviews 1 (2000): 31-41. • Simons, Kai. "Model Systems, Lipid Rafts, and Cell Membranes." Annu. Rev. Biophys. Biomol. Struct. 33 (2004): 269-95. • Video: Viel, A., Lue R.A., “Inner life of the cell.” The president and Fellows of Harvard College (2007) http://multimedia.mcb.harvard.edu/anim_innerlife.html