a protein expression analysis of healthy and diseased
TRANSCRIPT
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A Protein Expression analysis of Healthy and Diseased A Protein Expression analysis of Healthy and Diseased Patient Amniotic Fluid Samples Using ProteomeLab PF 2D:Patient Amniotic Fluid Samples Using ProteomeLab PF 2D:
A Case Study on Sample Processing.A Case Study on Sample Processing.
Timothy J. Barder, Ph.D.Timothy J. Barder, Ph.D.
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4 Broad Challenges in Proteomics1. No one technique will give all the answers.
– Dynamic Range & Resolution Issues.– 104 – 105 Genes transcribing 105 – 106 proteins
2. The “proteome” is very dynamic.– Temporal & environmental influences.– Post-translational modifications, P-P interactions.
3. Many different protein sources.– Tissue, Serum/plasma, bio-fluids– Inter/Intra-cellular Biology & Extra-cellular Biology
4. Inclusionary vs. Exclusionary Protein Analysis– Whole picture vs. partial picture of expression.– Intact protein analysis vs. Peptide mapping.
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Analytical (MS) Analytical (MS) MethodsMethods
2D Intact Protein HPLC Concept2D Intact Protein HPLC Concept
Peptide MappingPeptide Mapping
MALDI, LC/MALDI, LC/MSMSnn, , CE/MS, SELDICE/MS, SELDI
EDMAN EDMAN SequencingSequencing
Protein Expression Arrays Protein Expression Arrays
Protein/Target Function Protein/Target Function EvaluationEvaluation
ELISAELISA’’ss
Isolation & ID of ImportantIsolation & ID of Important
Protein Protein ““Targets/MarkersTargets/Markers””
from Complex Mixturesfrom Complex Mixtures
BioinformaticsBioinformatics
11--D gelsD gels
1D & 2D Westerns1D & 2D Westerns
ProteomeLab PF2D
Fractionation of Intact Proteins
LC/MS LC/MS -- Intact Intact Protein AnalysisProtein Analysis
Molecular Biology Molecular Biology Methods Methods
New GelNew Gel--Free Methodologies for ProteomicsFree Methodologies for Proteomics
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Once you inject the sample, Once you inject the sample, its now about the sample processing only!its now about the sample processing only!
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Biological Samples Analyzed Using This 2D HPLC Concept
Whole Cell Lysates
Hepatocytes, Breast Cancer, Colon Cancer, Ovarian Cancer, Mouse embryonic stem cells, Yeast, E. coli, Staph Bacteria,
Rat Brain Tissue, PBMC’s, Flow cytometry samples.
Protein Fluids
Secreted Proteins (conditioned media), Sera, Plasma, Amniotic Fluid, Ascites, Saliva, Urine, Various Lavages, CSF.
Misc. Protein Samples
Veterinary Vaccines, Bacterial Antigens, Bacterial spores and extracts, Plant extracts, GMO samples, Meat Product
extracts, Milk/Cheese Extracts
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pI Fractions taken at fixed pH rangespI Fractions taken at fixed pH ranges
ProteoVue pI/Hydrophobicity 2D Protein Expression Map ProteoVue pI/Hydrophobicity 2D Protein Expression Map E. Coli O157:H7 Whole Cell LysateE. Coli O157:H7 Whole Cell Lysate
pI
Retention Tim
e (min)
Fraction #
Hydrophobicity Profile for
Proteins in pI range = 5.8 – 6.1
* Lane 9
*
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Two Different E. coli O157 strains from Penn StatepI range 3.5 pI range 3.5 –– 7; Hydrophobicity range 10 7; Hydrophobicity range 10 –– 19 min19 min
ProteoVue pI/Hydrophobicity 2D mapsProteoVue pI/Hydrophobicity 2D maps
E. coli O157:H7E. coli O157:H7 E. coli O157:H32E. coli O157:H32
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2D Total Protein expression map of Patient (Human) Serum2D Total Protein expression map of Patient (Human) Serum
Serum samples processed the same as a cell lysate.Serum samples processed the same as a cell lysate.
RT 8 – 19 min
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Protein Denaturation Buffer Contents
Protein Concentration/Precipitation
Selected Protein Depletion
MW cut-off filters
Cellular Protein Expression vs Biofluid Protein Expression:
Sample Processing issues.
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Contrasting Cellular analysis many biofluids have a high % of proteins with MW > 60 kDa e.g. IgA, IgG, IgM, Albumun, Transferrin, Lipoproteins.
Albumin acts as a “protein sponge” making protein expression more complicated.
Amniotic Fluid (AF) proteins are mainly serum proteins but diluted by ~ 30 fold.
Sample processing/preparation will be important to low level expression analysis.
Cellular Protein Expression vs Biofluid Protein Expression.
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Undepleted Serum RPHPLC Analysis
(prior to CF)
HSA sample RPHPLC Analysis
(prior to CF)
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HSA sample no reducing agent (TCEP) added
2D ProteoVue Map
HSA sample with reducing agent (TCEP) added
2D ProteoVue Map
Addition of reducing agent to sample solubilization buffer breaks the albumin (transthyretin) complex!
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200 uL sera in Buffer with no TCEP200 uL sera in Buffer with TCEP
Reducing agents common additives to denature proteins!
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Undepleted Human Serum RPHPLC Analysis
(prior to CF)
Depleted Human Serum RPHPLC Analysis
(prior to CF)
125uL Serum depleted of IgG, IgA and HSA125uL Serum undepleted
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Undepleted Serum sample
RPHPLC Analysis
(prior to CF)
HSA sample
RPHPLC Analysis
(prior to CF)
Depleted Serum sample
RPHPLC Analysis
(prior to CF)
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Undepleted Human Serum 2D Map Depleted Human Serum 2D Map
125uL Serum depleted of IgG, IgA and HSA125uL Serum undepleted
Both samples denatured with TCEP; They look Identical!!!
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Undepleted Human Serum 2D Map
pI = 7 – 9 region
Depleted Human Serum 2D Map
pI = 7 – 9 region
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Contrasting Cellular analysis many biofluids have a high % of proteins with MW > 60 kDa e.g. IgA, IgG, IgM, Albumun, Transferrin, Lipoproteins.
Albumin acts as a “protein sponge” making protein expression more complicated.
Amniotic Fluid (AF) proteins are mainly serum proteins but diluted by ~ 30 fold.
Sample processing/preparation will be important to low level expression analysis.
Cellular Protein Expression vs Biofluid Protein Expression.
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ProteoVue Map 2.5 cc of EtOH precipitated AF
EtOH ppt’d resolubilized in TCEP containing Solubilization buffer
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Group IGroup II Group III
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α-1 Antitrypsin Precurser
Transthyretin
Retinol Binding protein
Transferrin
proapolipoprotein
Fibrinopeptide BB Chain B
No SDS PAGE GelBands observed.
Gel Band but no tryptic Peptides
Group IGroup II Group III
β-2-microglogulinfibrinopeptide B
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20 cc EtOH precipitated AF
EtOH ppt’d resolubilized in TCEP containing buffer
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RT = 7 – 18 min 12.5 cc AF untreated20 cc AF EtOH precipitated
EtOH precipitated with TCEP gives only a partial picture of total protein expression.
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Normal Infection
12.5 cc untreated AF (RT 8-18 min)
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Difference Map
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Group I Group IIDifference Map
<4.0 4.3 4.6 4.9 5.2 5.5 5.8 6.1 6.4 6.7 7.0
1-5-3 & 2-5-3
1-5-1 & 2-5-1
1-5-2 & 2-5-2
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1D gels of selected differential expressed intact proteins
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Intact IGFBP-1-Migrates slightly below 31kDa MWM
Fragment of IGFBP-1-Migrates between 14 and 21kDa MWM
Amniotic Fluid probed with Anti-human IGFBP-1
1D gel
Intact IGFBP-1 protein is differentially expressed in amniotic fluid.
A smaller molecular weight, anti-IGFBP-1 reactive protein, is also differentially expressed in these samples opposite to intact IGFBP-1.
The higher MW/intact isoform of IGFBP-1 is present in much greater amounts in control amniotic fluid versus samples of amniotic fluid from infected patients.
ELISA shows the total amount of IGFBP-1 (high plus low MW) does not appear to change significantly between control vs. infected.
Combined with the ELISA results the IGFBP-1 protein is cleaved upon infection resulting in the accumulation of a smaller MW form and simultaneous loss of the higher/intact isoform.
Western
IGFBP-1 ID’d by LC/MS/MS
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Filtrate from 60 kDa spin filter
RT = 7 – 18 min 12.5 cc AF
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Filtrates from 60 kDa spin filter
Normal Infection
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Q92657.02 - HP8 peptide
O95456.39 - Down Syndrome Critical Region Protein 2
Normal Infection
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Q8N1D9 - SRY (Sex determining region Y)-boxQ8TD37 - BA299N6.1.1 (Transcription elongation factor A (SII), 2 (TCEA2), isoform 1),
O98237 - MHC class I chain-related A antigen (Fragment)
Normal Infection
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4.3 – 4.6 12.0 – 13.0 Absent
P13232.13 - Interleukin-7 precursor
P08833.09 - Insulin-like growth factor binding protein 1 precursor (IGFBP-1) (IBP-1) (IGF-binding
protein 1) (Placental protein 12) (PP12)
4.3 – 4.6 13.0 – 14.1 Absent No confident ID Q8TCG4.21 - TPMsk1 fragment4.3 – 4.6 14.1 – 15.4 Absent No confident ID P02647.01 - Apolipoprotein A1Precursor4.6 – 4.9 13.7 – 14.3 Absent P31025.26 - Von Ebner's gland
protein precursor (VEG protein) (Tear prealbumin) (TP) (Tear lipocalin)
(Lipocalin 1
P31025.26 - Von Ebner's gland protein precursor (VEG protein) (Tear prealbumin) (TP) (Tear
lipocalin) (Lipocalin 1
4.6 – 4.9 14.3 – 14.7 Absent
No confident ID
P02647.01 - Apolipoprotein A1Precursor and P02760.05 - AMBP protein precursor [Contains: Alpha-1-microglobulin (Protein HC) (Complex-forming glycoprotein heterogeneous in charge) (Alpha-1 microglycoprotein); Inter-alpha-trypsin inhibitor light chain (ITI-LC) (Bikunin) (HI-30)]
4.6 – 4.9 16.4 – 17.2 Absent
No confident ID
P02647.01 - Apolipoprotein A1Precursor and P01009 - Alpha-1-antitrypsin precursor (Alpha-1
protease inhibitor) (Alpha-1-antiproteinase)
4.9 – 5.2 12.8 – 13.3 Absent P31025.26 - Von Ebner's gland protein precursor (VEG protein) (Tear
prealbumin) (TP) (Tear lipocalin) (Lipocalin 1
P31025.26 - Von Ebner's gland protein precursor (VEG protein) (Tear prealbumin) (TP) (Tear
lipocalin) (Lipocalin 1
4.9 – 5.2 13.7 – 14.3 Absent
No confident ID
P02760.05 - AMBP protein precursor [Contains: Alpha-1-microglobulin (Protein
HC) (Complex-forming glycoprotein heterogeneous in charge) (Alpha-1
microglycoprotein); Inter-alpha-trypsin inhibitor light chain (ITI-LC) (Bikunin) (HI-
30)]5.2 – 5.5 13.9 – 14.3 Absent No confident ID P51812 - Ribosomal protein S6 kinase alpha 3
Normal Infection Protein Identification Nanospray Protein Identification MALDI
RT range min
pI range
5.2 – 5.5 15.8 – 16.4 Differential Expression of 3 prominent bands (previously found α-1 antitrypsin in this
area) P02647.01 - Apolipoprotein A1
Precursor_only 1 peptide ID P02647.01 - Apolipoprotein A1Precursor
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Understanding the effects of sample processing is Understanding the effects of sample processing is key to interpreting protein expression results.key to interpreting protein expression results.
1. Reducing Agents alters/influences protein expression especially w.r.t. albumin.
2. Protein Precipitation effective for dilute biofluids.
3. Selected Protein Depletion: Effective but do reducing agents have the same effect as albumin depletion?
4. MW cut-off filters are a great way to isolate and ID low expressed proteins in high albumin containing biofluids.
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