1. Key Variables in ICS Assays
Holden T. Maecker

2. The original BD ICS assay protocol
1 ml whole blood +
Ag + CD28 + CD49d
+ Brefeldin A
+ FACSLyse,
10 min
+ EDTA/PBS 2h 4h
15 min
Centrifuge, aliquot into
staining tubes or freeze
Wash
Wash, fix,
analyze
CD69 PE
anti-TNF FITC
FACS
Perm, 10 min
mAb staining,
30-60 min
3- or 4-color
Flow cytometry

3. 96-well plate ICS protocol with lyophilized reagents
PBMC or whole blood
Plate with lyophilized Ag+BFA
37oC, EDTA, FACS Lyse, FACS Perm 2
Plate with lyophilized Ab
to flow cytometer

4. What are the key variables?
Stimulation
PBMC vs. whole blood
Resting PBMC before activation
Activation/staining in plates vs. tubes
Costimulatory Abs (CD28+CD49d)
Stimulation time
Brefeldin A and/or monensin
Processing and staining
Use of EDTA or not
Method of fixation/permeabilization
Freezing of cells post-fixation
Surface vs. intracellular staining for CD3, CD4, CD8, etc.
Fluorochromes and fixation (APC-Cy7, AmCyan)
Staining time, temperature, and agitation
Number of washes (post-fix and post-stain)
Acquisition and analysis
Number of events to collect
Gating
Interpretation of results, precision, comparisons with other assays

5. Effect of overnight rest on cryo PBMC
% IFNg+
MFI of IFNg+ 3
750 2
500 1
250
100
10000
100
10000
Reciprocal Dilution
Reciprocal Dilution
No rest, 6 h peptide stimulation
Overnight rest, 6 h peptide stimulation

6. Correlation of tube vs. plate ICS
A. 96-well whole blood
B. 96-well PBMC
CD4
CD8
CD4
CD8
1.25
2.5 4 4
1.00
2.0 3 3
Peptide
mix
% IFNg+ cells
0.75
1.5 2 2
0.50 r 2
= 0.95
1.0 r 2
=0.87 r 2
= 0.96 r 2
= 0.73
p<0.0001
p<0.0001
p <
p =
0.25 1 1
slope 0.94
0.5
slope 0.88
slope = 1.2
slope = 1.1
0.00
0.0
plate
0.00
0.25
0.50
0.75
1.00
1.25
0.0
0.5
1.0
1.5
2.0
2.5 1 2 3 4 1 2 3 4
0.0
2.5
5.0
7.5
10.0 2 4 6 8 10 12 14 10 20 10 20 30
% IFNg+ cells
SEB 2 2 r
= 0.94 r 2
=0.95 r
= 0.74 r 2
= 0.79
p<0.0001
p =
p <
p<0.0001
slope = 0.84
slope 0.91
slope 0.93
slope = 0.78
% IFNg+ cells
% IFNg+ cells
% IFNg+ cells
% IFNg+ cells
tube

7. Similar IFNg MFI in tubes vs. plates
A. 96-well whole blood
B. 96-well PBMC
C. 24-well whole blood (HIV+)
CD4
CD8 1 2 3
CD4
CD8 1 2 3
CD4
CD8 1 2 3 t u b e p l a t e
IFNg mean fluorescence

8. Cell recovery in tubes vs. plates1 7 5
% CD3+ cell recovery 5 2 5
Tube
Tube
96-well
24-well
96-well
Whole Blood
PBMC

9. Effect of costimulatory Abs (CD28+49d)

10. Monensin vs. Brefeldin Summary
Brefeldin A preferred (10 mg/mL):
TNFa, IFNg, IL-2, IL-4, IL-12
When combining any of the above with CD107, TGFb, or IL-10:
5 mg/mL monensin + 5 mg/mL brefeldin A

11. What are the key variables?
Stimulation
PBMC vs. whole blood
Resting PBMC before activation
Activation/staining in plates vs. tubes
Costimulatory Abs (CD28+CD49d)
Stimulation time
Brefeldin A and/or monensin
Processing and staining
Use of EDTA or not
Method of fixation/permeabilization
Freezing of cells post-fixation
Surface vs. intracellular staining for CD3, CD4, CD8, etc.
Fluorochromes and fixation (APC-Cy7, AmCyan)
Staining time, temperature, and agitation
Number of washes (post-fix and post-stain)
Acquisition and analysis
Number of events to collect
Gating
Interpretation of results, precision, comparisons with other assays

12. EDTA addition in plates and tubes

13. Fix/perm comparison: monocyte IL-12

14. Fix/perm comparison: T cell TGFb
BD FACS Lysing Solution BD Cytofix/Cytoperm
BD FACS Permeabilizing Sol’n BD Perm Wash
TGFb PE
TGFb PE
TGFb PE
TGFb PE

15. TGFb staining and activation media
TGFb PE
TGFb PE
TGFb PE

16. Freezing activated cells in FACS Lyse

17. Surface vs. IC staining for CD3
SEB stimulated PBMCs
surface stain
intracellular stain
CD3 Alexa 700
Clone

18. Surface vs. IC staining for CD4 & CD8
surface stain
intracellular stain
SEB stimulated PBMCs
CD8 APC-hilyte
CD4 60ng
CD8 Qdot 605 @ 0.25ul
CD4 AmCyan @ 60ng

19. All events CD3+ gate B CD8 APC-Cy7 Side Light Scatter C A
CD3 Pacific Blue
CD4 AmCyan
CD4- CD8+ gate
CD4+ CD8- gate
IFNg FITC
IFNg FITC
IL-2 PE
IL-2 PE
CD8+ IFNg+
CD8+ IFNg+ IL-2+
CD4+ IFNg+
CD4+ IFNg+ IL-2+
Side Light Scatter
Side Light Scatter
Side Light Scatter
Side Light Scatter
CD27 APC
CD27 APC
CD27 APC
CD27 APC
CD45RA PE-Cy7
CD45RA PE-Cy7
CD45RA PE-Cy7
CD45RA PE-Cy7
CD45RA PE-Cy7
CD45RA PE-Cy7
CD45RA PE-Cy7
CD45RA PE-Cy7
CD28 PerCP-Cy5.5
CD28 PerCP-Cy5.5
CD28 PerCP-Cy5.5
CD28 PerCP-Cy5.5
CD28 PerCP-Cy5.5
CD28 PerCP-Cy5.5
CD28 PerCP-Cy5.5
CD28 PerCP-Cy5.5

20. Degradation of APC-Cy7 on stained cells
In BDSF

21. BDSF and AmCyan don’t mix

22. IC staining time, volume, and mixing

23. What are the key variables?
Stimulation
PBMC vs. whole blood
Resting PBMC before activation
Activation/staining in plates vs. tubes
Costimulatory Abs (CD28+CD49d)
Stimulation time
Brefeldin A and/or monensin
Processing and staining
Use of EDTA or not
Method of fixation/permeabilization
Freezing of cells post-fixation
Surface vs. intracellular staining for CD3, CD4, CD8, etc.
Fluorochromes and fixation (APC-Cy7, AmCyan)
Staining time, temperature, and agitation
Number of washes (post-fix and post-stain)
Acquisition and analysis
Number of events to collect
Gating
Interpretation of results, precision, comparisons with other assays

24. Number of events to acquire
CALCULATING SAMPLE SIZE FOR RARE EVENT ANALYSIS
Enter the estimated values in the grey fields:
% bkgd=
0.1
p(av)=
0.0015
%pos=
0.2
delta=
0.001
For power of 90%, p<0.05, N=
25761
For power of 99%, p<0.005,
71592
For power of 80%, p<0.05,
18572
_______________________________________________________________
________# events to collect__________
% bkgd
lowest % positive
90% power, p<0.05
99% power, p<0.005
0.01
0.02
260,000
720,000
0.05
32,000
90,000
12,000
67,000
190,000
16,000
45,000
0.03
170,000
480,000
23,000
63,000
0.04
33,000
93,000
52,000
140,000
0.06
86,000
240,000
0.07
160,000
450,000
0.08
17,000
46,000
26,000
72,000

25. Importance of gating dim cells

26. Multi-site lyophilized control cell data
Individual (Manual) Analysis
Cocltail 1 CD4
Cocktail 1 CD8
Cocktail 2 CD4
Cocktail 3 CD8 10 20 30
32% 29% % %
% cytokine+ cells
Central (Automated) Analysis
7% % % %

27. Gating Manual analysis Batch analysis with dynamic gates 0.55% 0.56%
200
400
600
800
1000
Forward Scatter R1 10 1 2 3 4
CD3 APC R2
200
400
600
800
1000
Forward Scatter R1 10 1 2 3 4 R3 R2
CD3 APC
ungated
ungated
ungated
gated on R1
Side Scatter
Side Scatter
Side Scatter
Side Scatter 10 1 2 3 4
CD3 APC R3 10 1 2 3 4
CD3 APC R4 R5
gated on R1
gated on
R1&R2
&R3
ungated
gated on
R1&R3
&R5 R4
0.55% R6
0.56%
CD8 PerCP-Cy5.5
CD69 PE
CD8 PerCP-Cy5.5
CD69 PE R7 10 10 1 10 2 10 3 10 4 10 10 1 10 2 10 3 10 4
IFNg FITC
IFNg FITC

28. What are the key variables?
Stimulation
PBMC vs. whole blood
Resting PBMC before activation
Activation/staining in plates vs. tubes
Costimulatory Abs (CD28+CD49d)
Stimulation time
Brefeldin A and/or monensin
Processing and staining
Use of EDTA or not
Method of fixation/permeabilization
Freezing of cells post-fixation
Surface vs. intracellular staining for CD3, CD4, CD8, etc.
Fluorochromes and fixation (APC-Cy7, AmCyan)
Staining time, temperature, and agitation
Number of washes (post-fix and post-stain)
Acquisition and analysis
Number of events to collect
Gating
Interpretation of results, precision, comparisons with other assays

29. Holden’s rules for ICS (and life)
Validate your assay, but don’t validate that the earth is round
take advantage of others’ data if it’s sound
Know the inherent variability in your assay
don’t talk about significant differences unless you run at least triplicate samples
Avoid comparing apples and oranges
any changes to the assay can produce variability, so keep protocols constant and run samples in parallel whenever possible

30. Acknowledgements Laurel Nomura Smita Ghanekar Brinda Emu Maria Jaimes
Margaret Inokuma
Sonny Bhatia
Joyce Ruitenberg
Maria Suni
Jack Dunne
Skip Maino
Brinda Emu
Rebecca Hoh
Steve Deeks
Jeff Martin
Mike McCune
Doug Nixon