Authors: Dmitry Kovalenko, Xuehoi Yang, Robert J. Nadeau, Lauren K. Harkins, and Robert Friesel
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Transcript of Authors: Dmitry Kovalenko, Xuehoi Yang, Robert J. Nadeau, Lauren K. Harkins, and Robert Friesel
Sef Inhibits Fibroblast Growth Factor Signaling by Inhibiting FGFR1 Tyrosine Phosphorylation and Subsequent ERK
Activation
Authors: Dmitry Kovalenko, Xuehoi Yang, Robert J. Nadeau, Lauren K.
Harkins, and Robert Friesel
The Journal of Biological ChemistryApril 18, 2003
Presentation: Jaymie KroneMarch 11, 2005
I. Overview of FGFs and Sef
II. The Big Picture
III. The Questions
IV. Q1 Results and Conclusions
V. Q2
VI. Q3
VII. Q4
VIII. The Answers
Outline
Overview of Fibroblast Growth Factors
• Family of polypeptides with 23 members
• Regulate:
• Cell proliferation
• Migration
• Differentiation
• Embryonic pattern formation
Overview of Fibroblast Growth Factors
Pathway
• FGF complex binds and FGFRs dimerize • Autophosphorylation on tyrosine residues (docking sites for SH2 domain)
• FRS2 binds and is tyrosine-phosphorylated
• FRS2 binds to SH2 domain on the adaptor protein Grb2 and the protein-tyrosine phosphatase SHP2
• Grb2 attracts SOS
• SOS activates Ras pathway
Overview of Fibroblast Growth Factors
Previous Studies- FGF signaling:
• Is essential for cell proliferation and survival in mouse embryo before implantation
• Is essential for cell migration during gastrulation
• Has a role in development of brain, limb buds, and lung, as well as many other tissues and organs
Overview of Fibroblast Growth Factors
Previous Studies:
• Sprouty family of genes negatively regulate FGF signaling
• Spry acts between RTKs and Ras/Raf/ERK
• The FGF synexpression group
• a group of genes that share a complex expression pattern
• FGF8, FGF3, Spry, and Sef
Overview of Fibroblast Growth Factors
Sef
• Similar expression to FGF genes
• transmembrane protein whose embryonic expression is similar to other members of the FGF synexpression group
• expression is regulated by FGF
• Studies with Zebrafish and Xenopus
• Sef inhibits FGF signaling
• Sef co-immunoprecipitates with FGFR1 and FGFR2
The Big Picture
FGF signalingThe Big Question
What inhibits FGF signaling?
The Little Picture
The Little Question
Sef
How does Sef inhibit FGF signaling?
Questions
Hypothesis: Overexpression of mSef inhibits tyrosine phosphorylation of
FGFR
Q1: Does mSef associate with FGF1, and if so, which structural domains of the mSef protein mediate the interaction?
Q2: Does mSef overexpression inhibit FGF induced ERK activation?
Q3: Does mSef mediated inhibition of the Raf/Mek/ERK pathway occur at the level of Ras, or upstream of it?
Q4: Does mSef affect FGFR1 tyrosine phosphorylation?
Question 1: Figure 1
Procedure
• prepared full length and deletion mutations of mSef
• V5- and His-tagged mSef or mSef deletion constructs were expressed in cells with wildtype FGFR1 for 24 hours
• cells treated with FGF1
Figure 1A
Question 1: Figure 1
Procedure
• cell lysates immunoblotted directly with anti-V5 (Sef)
Figure 1B
• cell lysates immunoprecipitated with anti-FGFR antibodies and then immunoblotted with anti-His or anti-FGFR antibodies
Question 1: Figure 1
Results
• Full length mSef and mSefIC co-immunoprecipitated with FGFR1 (but mSefECTM and mSefEC did not)
Figure 1B
• both unstimulated and FGF-stimulated FGFR1 co-immunoprecipitated with mSef
Question 1: Figure 1
Figure 1C
Figure 1D
Procedure: Same as before, only instead of normal FGFR1, constitutively activated FGFR1 (Figure 1C) and a kinase-inactive form of FGFR1 (Figure 1D) are used
Results: same
Question 1
Does mSef associate with FGF1, and if so, which structural domains of the mSef protein mediate the interaction?
• Yes, mSef associates with FGF1
• The cytoplasmic domain of mSef mediated the association between FGFR1 and mSef
• Also learned that the association between mSef and FGFR1 is independent of FGFR1 tyrosine kinase activation
Question 2: Figure 2
Procedure• cells were transduced with either AdGFP (adenovirus mediated green fluorescent protein) or AdmSef
• cell lysates Immunoblotted with antibodies for pERK (activated ERK), pRaf, and pMEK
Figure 2A
Question 2: Figure 2
Results• Overall levels of ERK were unaffected
Figure 2A
• Only AdmSef resulted in a reduction in the levels of activated ERK (by 86%)
• pMEK was inhibited by mSef by 61%
• pRaf was reduced by mSef by 59%
Question 2: Figure 2
Procedure• cells were transduced with either AdGFP or AdmSef and made quiescent (at rest) for 36 hrs
Figure 2A
• Cells exposed to FGF2
• A tritiated thymidine incorporation asses was performed
Result• A decrease in FGF-stimulated DNA synthesis
Question 2
Does mSef overexpression inhibit FGF induced ERK activation?
• Yes, mSef overexpression inhibits ERK activation
• This, in turn, reduces FGF stimulated DNA synthesis
Question 3: Figure 3
Procedure• cells were transduced with either AdGFP or AdmSef
• cells stimulated with FGF2, PDGF, EGF, or CS
• cell lysates immunoblotted for pERK, ERK, and V5
Figure 3A
Results• ERK phosphorylation by PDGF, EGF, and CS activated pathways are not inhibited by mSef
Question 3: Figure 3
Procedure• cells were transfected with ERK with either activated FGFR1 or activated Ras
• cell lysate was immunoprecipitated with anti-HA antibodies (hemagglutinin)
• cell lysate was immunoblotted for pERK, HA, FGFR, and V5 Figure 3BResults• mSef decreases ERK phosphorylation induced by active FGFR1 but not active Ras
Question 3: Figure 3
Procedure• cells were transduced with either AdGFP or AdmSef and stimulated with FGF2
• a pull-down with GST-RBD was done (Ras binding domain)
• cell lysate immunoblotted for Ras
Figure 3CResults• mSef inhibits FGF-induced activation of Ras
Question 3: Figure 3
Procedure• cells were transduced with either AdGFP or AdmSef and stimulated with FGF2
• cell lysate immunoblotted with antibodies to pAkt, Akt, and V5
Figure 3DResults• mSef inhibits FGF induced activation of Akt (but not PDGF induced)
Question 3: Figure 3
Procedure• cells were transfected with ERK and FGFR1 and either mSef or mSefIC and stimulated with FGF2
• cell lysates immunoprecipitated for HA and immunoblotted for pERK, HA, V5, and FGFR1
Figure 3EResults• mSefIC reduces activation of ERK (by 69%) but not as much as mSef (by 93%)
Question 3
Does mSef mediated inhibition of the Raf/Mek/ERK pathway occur at the level of Ras, or upstream of it?
• Signaling from Ras is intact in mSef overexpressed cells
• mSef does not decrease ERK phosphorylation induced by active Ras
• mSef inhibits FGF-induced activation of Ras
• mSef inhibits multiple FGF-induced signaling pathways and the inhibition occurs upstream of Ras
Question 4: Figure 4
Procedure•cells were transduced with either AdGFP or AdmSef and stimulated with FGF2
•cell lysate was immunoprecipitated for FGFR
• cell lysate was immunoblotted for pY (phosphotyrosine), FGFR, and V5
Figure 4ABResults
• mSef reduces FGF-induced tyrosine phosphorylation of FGFR by about 70%
Question 4: Figure 4
Procedure• same as before, except immunoprecipitated and immunoblotted for FRS2, a substrate of FGFR1
Figure 4CD
Results• mSef reduces FGF-induced tyrosine phosphorylation of FRS2 by about 70%
Question 4
Does mSef affect FGFR1 tyrosine phosphorylation?
• Yes, mSef reduces FGFR1 tyrosine phosphorylation by about 70%
• mSef also reduces FRS2 phosphorylation
The Answers
Q1: Does mSef associate with FGF1, and if so, which structural domains of the mSef protein mediate the interaction?
Q2: Does mSef overexpression inhibit FGF induced ERK activation?
Q3: Does mSef mediated inhibition of the Raf/Mek/ERK pathway occur at the level of Ras, or upstream of it?
Q4: Does mSef affect FGFR1 tyrosine phosphorylation?
Yes, at the cytoplasmic domain
Yes, by 86%
Upstream
Yes, by 70%
The Little Question
How does Sef inhibit FGF signaling?
The Answer:
By reducing FGF-mediated tyrosine phosphorylation of FGFR1 and FRS2
Sef interferes with FRS2 binding to Grb2
Wait…. Is this the answer?
The authors point out that previous zebrafish experiments indicate that Sef disrupts FGF signaling at the level of MEK, which conflicts with their own results...
Wait…. Is this the answer?
But another, more recent paper seems to agree with the zebrafish experiments. It shows that human Sef binds to activated MEK and inhibits the dislocation of the MEK-ERK complex.
Sef is a Spatial Regulator for Ras/MAP Kinase Signaling. Torii, S., et al. Developmental Cell, July 2004.