phosphoproteomics and cancer scott a. gerber, phd departments of genetics and biochemistry norris...
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![Page 1: Phosphoproteomics and Cancer Scott A. Gerber, PhD Departments of Genetics and Biochemistry Norris Cotton Cancer Center Geisel School of Medicine at Dartmouth](https://reader035.vdocument.in/reader035/viewer/2022062421/56649d0a5503460f949dc556/html5/thumbnails/1.jpg)
Phosphoproteomicsand Cancer
Scott A. Gerber, PhDDepartments of Genetics and Biochemistry
Norris Cotton Cancer CenterGeisel School of Medicine at Dartmouth
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CDK1Plk1
Aurora ACDK1Plk1
Aurora ACDK1Plk1
Aurora A/B
CDK1Plk1
Aurora B
Plk1Aurora B
PP2A/PP1
PP2APP1
PP1 Prophase Prometaphase
Metaphase
AnaphaseTelophase
Cytokinesis
Interphase
Kinases, cell division and cancer
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multipolarspindle
chromosomemissegregation
aberrant cytokinesis
spindle defects
Prophase Prometaphase
Metaphase
AnaphaseTelophase
Cytokinesis
Interphase
Kinases, cell division and cancer
![Page 4: Phosphoproteomics and Cancer Scott A. Gerber, PhD Departments of Genetics and Biochemistry Norris Cotton Cancer Center Geisel School of Medicine at Dartmouth](https://reader035.vdocument.in/reader035/viewer/2022062421/56649d0a5503460f949dc556/html5/thumbnails/4.jpg)
Metaphase
AnaphaseTelophase
Cytokinesis
Prophase Prometaphase
Interphase chromosome instability
&aneuploidy
multipolarspindle
chromosomemissegregation
aberrant cytokinesis
spindle defects
Kinases, cell division and cancer
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Phosphoproteomics and cancer: opportunities, challenges & progress
adapted from Pao and Girard, Lancet 2011
Genomics-based targeted treatments:
•EGFR (~10%) – gefitinib/erlotinib
•ALK (~4%)- crizotinib
•RAS/RAF (~28%) – MEK inhibitors
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Phosphoproteomics and cancer: opportunities, challenges & progress
*http://cancer.sanger.ac.uk/cancergenome/projects/cosmic,La Locano 2011, J Trans Med; Wolf 1997, Oncogene
PLK1 mRNA expressionN T N T N T
N – normal tissueT – tumor tissue
8,300 tumors
61 (0.7 %) mutations
COSMIC*
9,200 tumors
35 (0.4 %) mutations
Drug(s)
BI6727 (volasertib)Phase III
MLN8237 (alisertib)Phase III
Plk1AurkA
Plk1AurkA
Plk1
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Schwanhäusser et al. 2011, Nature; Lundberg et al. 2010, Mol. Sys. Biol
U-2OS A-432 U-251MG
NIH3T3
Phosphoproteomics and cancer: opportunities, challenges & progress
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α-Plk1
H23H1650
H1838H1975
H2170H1395
H522
18.0 19.0 20.0 21.0 22.0Time (min)
Ab
un
dan
ce
AQUA
endogenous
HINPVAASLIQK
0 0.5 10
0.5
1
relative Plk1 mRNA abundance
rela
tive
Plk1
pro
tein
abu
ndan
ce
r2 = 0.04
Polo-like kinase 1 (Plk1): protein vs mRNA vs chemosensitivity
Kettenbach & Gerber, Nature Protocols (2011)
Phosphoproteomics and cancer: opportunities, challenges & progress
0 0.5 10
0.5
1
relative Plk1 protein abundance
rela
tive
LD50
Plk
1 in
hibi
tor r2 = 0.17
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Phosphoproteomics and cancer: opportunities, challenges & progress
P
ATP ADP
P
kinase
phosphatase
cdk1
PP1 PP1
P
“active”
Cell cycle progression
G1 S G2 M
Cdk1 activity
PP1 activity
G1
Tumor phosphoproteomes represent the balance of opposing activities
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PP
P
P
AB C
PP
P
P
A’B C’
OH
Biol
ogy
Condition 1 Condition 2
Stable Isotope Labeling by Amino acids in Cell culture
anti-A antibody, etc.
Expe
rimen
t 12C & 14N Lys & Arg(light)
13C & 15N Lys & Arg(heavy)
each tryptic peptideends in Lys or Arg & can be quantified
- mix conditions- lyse
- IP A/A’-SDS-PAGE & digest
mixing cells allowsmulti-step, subcellularfractionation &accurate quantitation
Info
rmati
on
100%
50%
m/z
B
C’C
A’A
P
AP
A’
A’OH
P
A’PA
AOH
condition (1): lightcondition (2): heavy
Quantities are ratios:e.g. heavy / light
Ong et al., Molecular & Cellular Proteomics 2002
Quantitative Proteomics: SILAC
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Spike-in SILAC analysis of human lung cancer tumors
Schweppe, Rigas & Gerber, Journal of Proteomics (2013)
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Spike-in SILAC analysis of human lung cancer tumors
Two non-small cell lung cancer (NSCLC) tumors
Schweppe, Rigas & Gerber, Journal of Proteomics (2013)
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Spike-in SILAC analysis of human lung cancer tumors
Motif-X – http://motif-x.med.harvard.edu/
Target discovery
Dimensionality reduction
Motif-based biomarkers
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Spike-in SILAC analysis of human lung cancer tumors
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Spike-in SILAC analysis of human lung cancer tumors
Kettenbach et al., Science Signaling (2011); Schweppe, Rigas & Gerber, Journal of Proteomics (2013)
00.10.20.30.40.50.60.7
0 20 40 60
TiO2 LC-MS/MSinhibited
13C15N
control12C14N
+
combinelyse
trypsin digestion SCX
chromatography
phosphopeptide enrichment
N
HN
OHN N
N
N
N O
O
N
HN
OHN N
N
N
N O
O
Plk1 inhibitor
> 700 Plk1 candidate substrate phosphorylation sites
previously:
in these lung tumors:
Kinase-specific “substrate-omes” may be reflective of in vivo activity
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Spike-in SILAC analysis of human lung cancer tumors
Schweppe, Rigas & Gerber, Journal of Proteomics (2013)
What about protein abundance differences?
Tumor phosphoproteomes contain greaterdynamic information than proteomes
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Translational phosphoproteomics: Status
Currently moving forward with the analysis of 40 NSCLC lung tumors for phosphoproteomic analysis
• Study population• Subjects undergoing thoracic surgery for presumed lung
cancer
• Determine if significant correlation exists between Aurora A and/or Plk1 substrates and progression-free survival
• Correlate global phosphoproteomics patterns with disease-free survival, time to disease recurrence, lung cancer-specific survival and overall survival
• New instrumentation affords deeper coverage• New instrumentation enables multiplexed analyses
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AcknowledgementsThe Gerber Labproteomics.dartmouth.edu Dr. Lilian KabecheDr. Devin Schweppe (past)Jason GilmoreJeffrey MilloySierra CullatiKatelyn CassidyAndrew GrassettiMark Adamo
The Kettenbach Labwww.kettenbachlab.org Dr. Arminja KettenbachAdam PetroneScott RusinKate Schlosser
NCCC Thoracic OncologyDr. James RigasDr. Konstantin Dragnev
FundingAmerican Cancer SocietyNIH P20-GM103413
R01-CA155260S10-OD016212
Cambridge Isotopes ThermoFisher Scientific GL Sciences