Signaling pathways
Katka Hemalov´a
sybilasystemsbiologylaboratory
March 20, 2014
1 Signaling pathways
2 FGFR pathway
3 Yamada et al. model
Signals
Cooper et al., The Cell: A Molecular Approach, 4th edition, 2006
Cell signaling
Alberts et al., Molecular biology of the Cell, 5th edition, 2007
Response time
Alberts et al., Molecular biology of the Cell, 5th edition, 2007
Receptors
Alberts et al., Molecular biology of the Cell, 5th edition, 2007
Signal transduction through molecular switches
Other ways to switch a protein on/off: binding of another
signaling protein, cAMP, Ca2+ or by another modification
(e.g. ubiquitylation)
Alberts et al., Molecular biology of the Cell, 5th edition, 2007
Scaffold proteins
Signaling proteins in close proximity
Fast, efficient, selective response to an extracellular signal
Avoiding unwanted cross-talk
Alberts et al., Molecular biology of the Cell, 5th edition, 2007
The three largest classes of cell-surface receptor
Ion-channel-coupled receptors
G-protein-coupled receptors
Enzyme-coupled receptors
Ion-channel-coupled receptors
Alberts et al., Molecular biology of the Cell, 5th edition, 2007
G-protein coupled receptors
http://www.rcsb.org/pdb/101/motm.do?momID=58
cAMP activates Protein kinase A
Cooper et al., The Cell: A Molecular Approach, 4th edition, 2006
Enzyme-coupled recepetors
Campbell N., Biology, 5th edition, 2000
Enzyme-coupled recepetors
Alberts et al., Molecular biology of the Cell, 5th edition, 2007
SH2 domain (”SRC-Homology 2 domain”)
crucial part of adaptors (Grb2, Shc, Crk, ...)
Cooper et al., The Cell: A Molecular Approach, 4th edition, 2006
Grb2 and Ras pathway
Grb2-SOS complex preexist in cytoplasm
Weinberg, R., The Biology of Cancer, Garland Science, 2007
Ras pathway (MAPK pathway)
http://oregonstate.edu/instruct/bb492/fignames/ras3.html
Fibroblast growth factor receptor 3 (FGFR3)
Enzyme-coupled receptor
Growth and proliferation inhibition
Mutation that cause achondroplasia act by exaggerating the
negative regulatory functions of FGFR3
Deng et al.,Fibroblast Growth Factor Receptor 3 Is a Negative Regulator of Bone Growth, Cell, 1996
FGFR3-related skeletal dysplasia
FGFRs employ several
signaling pathways, MAPK
pathway is one of them
Leaderich M. B., Horton W. A., Achondroplasia: pathogenesis and implications for future treatment,
Curr Opin Pediatr, 2010
Constitutive activation of ERK
Mutated FGFR3 induces
constitutive activation of
the MAPK pathway in
chondrocytes
Disease results from
increased signal from the
mutant receptor
FGFRs recruit their
downstream adaptors
(GAB1, SHC, FRS2, etc.)
EGF vs. FGF pathway model schema
(Yamada et al., 2004)
Grb2-SOS binds EGFR directly or through Shc
Grb2-SOS binds FGFR through FRS2
Yamada S., Taketomi T., Yoshimura A., Model analysis of difference between EGF pathway and FGF
pathway, BBRC, 2004
EGF vs. FGF pathway (Yamada et al., 2004)
Duration of ERK activation determines the cell response
EGF induces transient ERK activation
FGF induces transient and sustained ERK activation
What is the reason for difference in time course?
Dependency on Shc and FRS2 initial concentration
Grb2-SOS binds EGFR directly or through Shc → ERK
activation is limited by concentration of receptor
[EGFR2P] + [Grb2-SOS] ↔ [EGFR2P-Grb2-SOS]
[EGFR2P-ShcP] + [Grb2-SOS] ↔ [EGFR2P-ShcP-Grb2-SOS]
Grb2-SOS binds FGFR through FRS2 → signal amplification
[FGFR2P] + [FRS] ↔ [FGFR2P-FRS]
[FGFR2P-FRS] → [FGFR2P] + [FRSP]
[FRSP] + [Grb2-SOS] ↔ [FRSP-Grb2-SOS]
EGF vs. FGF pathway summary
Differences in mechanism of interaction between receptors and
first adapters
FRS2 and sustained ERK activation (more Grb2-SOS
complexes are recruited)