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CHMI 4237 E Special topics in Biochemistry

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CHMI 4237 E Special topics in Biochemistry Cell proliferation 4- Signaling to the cell cycle TGF-b Eric R. Gauthier, Ph.D. Dept. Chemistry-Biochemistry – PowerPoint PPT presentation

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Title: CHMI 4237 E Special topics in Biochemistry


1
CHMI 4237 ESpecial topics in Biochemistry
Cell proliferation 4- Signaling to the cell cycle
TGF-b
  • Eric R. Gauthier, Ph.D.
  • Dept. Chemistry-Biochemistry
  • Laurentian University

2
So, what are the BIG questions
  • 1) How does the basic cell cycle machinery work?
  • 2) How does the cell ensure that a given step in
    the cell cycle is properly completed before
    moving forward?
  • 3) What are the signals that modulate the cell
    cycle?

3
Transforming growth factor beta
  • Isolated as a component of  sarcoma growth
    factor 
  • Triggers a number of biological effects,
    including cell proliferation and cell cycle
    arrest

4
Transforming growth factor beta
  • Family of over 33 proteins, which includes
  • TGFb
  • Bone morphogenetic proteins (BMPs)
  • Activins
  • Growth and differentiation factors (GDFs)
  • Number of effects
  • Proliferation (stimulation/inhibtion)
  • Differentiation
  • Cell adhesion
  • Cell migration
  • Cell death

5
TGF-b secretion
  • TGF-b is first synthesized on the ribosome as a
    pre-pro-protein
  • The pre-sequence is removed during insertion into
    the ER lumen
  • During its transit in the secretory pathway,
    TGF-b is processed and converted into its
    secreted form, associated with LTBP
  • Active TGF is release by the action of a number
    of factors, including
  • Metalloproteases MMP-2 / MMP9
  • Plasmin
  • Integrins (i.e. extracellular matrix)

6
TGF-b receptor
  • TGF-b triggers its effects on the cell by causing
    the dimerization of two subunits of the TGF
    receptor
  • Single-span membrane proteins
  • Possess Ser/Thr kinase activity
  • TbR-I subunit
  • possess a 30-amino acid GS domain preceding the
    kinase domain
  • TbR-II subunit
  • Activates receptor in a ligand-specific manner by
    phosphorylating the GS sequence of TbR-I
  • Doesnt have a GS sequence

7
TbR-I activation
  • In the absence of ligand TbR-I is inhibited by
    its GS sequence, which is wedged in the N lobe of
    the Ser/Thr kinase domain
  • This prevents ATP binding by the N-lobe
  • TbR-I is stabilized in this form through the
    binding of FKBP12

8
TbR-I activation
  • TGF binding causes the dimerization of TbR-I and
    TbR-II
  • TbR-II phosphorylates the GS sequence
  • This is sufficient to dislodge the GS sequence
    from the N- lobe and allow ATP binding

Signal Transduction. 2nd edition. 2009. Academic
Press
9
TbR-I activation
  • Phosphorylated TbR-I acts as a docking site for
    the actual signal transducers a family of
    proteins called R-SMADS
  • SMADS are brought to the TbR-I/TbR-II dimer by a
    membrane-bound protein called SARA
  • R-SMAD phosphorylation by TbR-I triggers the
    signaling cascade.

10
SMADS
  • Three classes are recognized
  • R-SMAD initiate signaling at the TbR
  • SMAD4 modulates the expression of target genes
  • Inhibitory SMADs involved in signal termination
  • Main protein regions
  • 1) MH1
  • Binds DNA at the SMAD binding element (SBE) in
    the promoter of target genes
  • Binds a number of transcription factors
  • 2) linker region
  • hot spot for phosphorylation
  • PPxY motif binding site for E3 ubiquitin ligase
  • Nuclear export signal (SMAD4 only).
  • 3) MH2
  • hydrophobic corridor (patch of hydrophobic amino
    acids) mediating protein interactions with SARA
    (cytoplasmic retention), nuclear pore proteins
    and transcription factors
  • SxS motif phosphorylated by TbR-I

11
SMADS
12
SMADS
  • When phosphorylated by TbR-I, the SxS motif
    interacts with a basic pocket in MH2
  • This promotes heteromerization between selective
    effector SMADs

13
R-SMADS
  • R-SMADS are specific to particular TGF family
    receptors
  • TbR-I (L45 loop) binds the L3 loop of the MH2
    domain of R-SMADS
  • This ensures specificity of interaction
  • The phosphorylated GS sequence also binds the
    basic pocket of the R-SMAD (this is the on-off
    signal)
  • Upon R-SMAD phosphorylation, the SxS sequence
    binds the basic pocket, weakening the interaction
    of R-SMADs with their cytoplasmic anchors and
    favoring oligomerization of 2 R-SMADs with SMAD
    4

14
R-SMADS/SMAD 4
15
Nuclear export and import
16
SMAD 4 and nuclear export
  • SMAD4 doesnt have a SxS sequence and thus is not
    phosphorylated by TbR-I
  • It also has a nuclear export sequence, which
    keeps it in the cytosol
  • CRM1 binds the NES and mediates interaction with
    nucleoporins
  • Heteromerization with R-SMADs masks the NES,
    allowing SMAD4 to accumulate in the nucleus.

17
SMAD 4 and nuclear export
18
Gene modulation by SMADs
  • R-SMAD/SMA4 4 blunts the expression of c-myc
    through binding a  TGFb inhibitory element 
    (TIB) in the c-myc promoter
  • This releases the inhibition on p21CIP
    expression
  • R-SMAD/SMAD 4 also interacts with several
    transcription factors to promote CKI gene
    transcirption, leading to cell cycle inhition.

19
Gene modulation by SMADs
20
Modulation of SMAD Activity
  • Dephosphorylation of SMADs in the nucleus leads
    to their export to the cytosol
  • Phosphorylation of the linker region of SMADs
    promote their regulation
  • Phosphorylation by CDKs and MAPKs lead to
    cytosolic retention and degradation of SMADs

21
SMURFs
  • C2 domains ? phospholipid-binding
  • WW domains? mediate protein-protein interaction
  • HECT domain E3 ubiquitin ligase activity

22
SMURFs
23
Modulation by inhibitory SMADs
  • In the absence of TGFb, both are retained in the
    nucleus
  • SMAD6 and SMAD7 are up-regulated and exported
    into the cytosol following TGFb signalling
  • SMAD 6 competes with SMAD4 for R-SMAD1 binding
  • SMAD7 binds with SMURF2 and mediates the
    degradation of TbR-I
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