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Lipid Raft and Signal Transduction

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Title: Lipid Raft and Signal Transduction


1
Lipid Raft and Signal Transduction
  • Tao Chen

2
Lipid Raft
  • A cholesterol-enriched microdomain in cell
    membrane.
  • A liquid-ordered phase dispersed in a liquid
    disordered matrix of cell membrane, which is
    thought to minimize the free energy between the
    two phases.
  • Can include and exclude proteins to variable
    extents.
  • Resistent to non-ionic detergents, such as Triton
    X-100 or Brij-98 at low temperatures (e.g., 4?).
  • Also called DRM, DIG, DIC, GPI domain,
    Glycosphingolipid signaling domain, caveolae-like
    domain, microdomain, LDM, lipid-ordered domain,
    DIM, GEM and TIFF.

3
  • A Intracellular space or cytosol
  • B Extracellular space or vesicle/Golgi apparatus
    lumen
  • (1)Non-raft membrane (2)Lipid raft (3)Lipid raft
    associated transmembrane protein (4)Non-raft
    membrane protein
  • (5)Glycosylation modifications (6)GPI-anchored
    protein (7)Cholesterol (8)Glycolipid

4
Techniques to Identify Lipid Raft
5
Signal Transduction
  • Signal transduction refers to any process by
    which a cell converts one kind of signal or
    stimulus into another.
  • Ligand bind to receptor Receptor change its
    conformation Enzyme bind to receptor
    Enzyme is activated
  • Red chemical messenger
  • Yellow transmembrane protein
  • Purple cell membrane
  • Green enzyme

http//www.youtube.com/watch?vtMMrTRnFdI4
6
How receptors signal through lipid rafts?
  • Through the connection of raft proteins and
    interacting proteins to form a complex, resulting
    in the activation of signalling cascade.

7
(1) Single Rafts Model
  • (a) Receptors associated at steady
  • state with lipid rafts could be activated
    through ligand binding
  • (b) Individual receptors with weak raft affinity
    could oligomerize on ligand binding, and this
    would lead to an increased residency time in
    rafts.

8
(2) Clustered Rafts Model
  • Activated receptors could recruit
  • cross linking proteins that bind to proteins in
    other
  • rafts, and this would result in raft coalescence.

9
  • Clustering of lipid raft can occur both
    extracellularly, within the membrane, and in the
    cytosol. It can also occur through GPI anchored
    proteins, either as a primary or co-stimulatory
    response.
  • These two models are not mutually exclusive.

10
T-Cell Antigen Receptor Signalling
  • The T cell receptor or TCR is a heterodimer
    consisting of an alpha and beta chain.
  • Alpha, beta heterdimer associate with CD3 complex
    and ? homodimer which contain cytoplasmic ITAM
    motifs (immune receptor tyrosine-based activation
    motifs).

11
  • Ligand-induced receptor dimerization of TCR/CD3
  • Phosphorylation of the receptors ITAMs by
    Src-family protein tyrosine kinases
  • Phosphorylated ITAMs act as a membrane docking
    site for ZAP-70
  • ZAP-70 activate other proteins such as LAT, a
    raft-associated adaptor, through cross linking,
    LAT can recruit other proteins into the raft and
    further amplify the signal.
  • Cytosolic kinase Csk bind to raft-associated
    protein CBP and then inactivate the Src-family
    kinases through phosphorylation

12
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13
Open Issues
  • Raft composition
  • Whether more than one kind of raft exists on the
    cell surface of different cell types.
  • Understanding the nature of individual rafts.
  • How single rafts are crosslinked to form
    clustered rafts during signal transduction.

14
References
  • Kai Simons and Derek Toomre, Lipid Rafts and
    Signal Transduction, Nature Reviews-Molecular
    Cell Biology, 2000, 1, 31-41
  • Brown D A, London E, Functions of Lipid Rafts in
    Biological Membranes, Annu. Rev. Cell. Dev. Biol,
    1998, 14, 111-136
  • Schroeder R, London E, Brown D, Interactions
    between saturated acyl chains confer detergent
    resistent on lipids and glycosylphosphatidylinosit
    ol(GPI)-anchored proteins GPI-anchored proteins
    in liposomes and cells show similar behavior,
    Proc. Natl Acad. Sci. USA, 1994, 91, 12130-12134
  • Zhang W, Trible R P, Samelson L E, LAT
    palmitoylation its essential role in membrane
    microdomain targeting and tyrosine
    phosphorylation during T-cell activation,
    immunity, 1998, 9, 239-246

15
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