IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for...
Transcript of IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for...
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Introduc)on to Flow Cytometry
Stephen De Rosa April 20, 2015
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Outline • Instrumenta)on
– Fluidics – Lasers, light detectors and op)cs
• Fluorescence • Spectra • Mul)-‐parameter flow cytometry • Flow data display • Basic compensa)on
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Flow cytometry
• Microscopy – “sta)c” examina)on • “Flow” – cells flow past the “microscope” or the point of interroga)on
• Advantage over microscopy is that large numbers of cells can be examined quickly
• Disadvantage is that cells cannot be examined in situ (must be in suspension) and morphology of cells is not examined
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Examples of applica)ons of flow cytometry
• “Phenotypic” iden)fica)on of cell type; e.g., the percentage of T cells in blood that express CD4 – Cannot determine absolute count (unless using coun)ng beads); typically determine count in conjunc)on with CBC data
• Func)onal examina)on of cells – cytokines, prolifera)on
• Mul)ple other applica)ons
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Instrumenta)on • Analyzers • Vs. • Cell sorters (also analyze)
Len Herzenberg
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Components of a flow cytometer
• Fluidics system • Laser(s) • Light detectors • Op)cal path • Electronics
• (Cell sor)ng components)
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Fluidics • Fluidics are cri)cal to placing the cell in the correct posi)on to be “viewed” at the point of interroga)on
• “Alignment” refers to the focus of the laser beam on the cell in the fluid stream
• Alignment can change either due to laser beam moving or fluid stream moving rela)ve to the laser – The la]er is more common and can o^en be corrected by cleaning or priming nozzle
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Flow cytometer 5-‐parameter, 3-‐color example
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
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Hydrodynamic focusing
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
• Nozzle or flow cell • Cell stream in center • Sheath fluid stream surrounds cells and focuses cells
• Single cell per cross sec)on • Cells pass through laser one cell at a )me
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In some cytometers, cells flow up
Hydrodynamic focusing of the sample core through the flow cell
h]p://www.bdbiosciences.com/instruments/lsr/features/index.jsp
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Cell analysis vs. cell sor)ng
• Some flow cytometers can physically separate or sort cells of interest in addi)on to analyzing cells
• FACS refers to Fluorescence-‐Ac)vated Cell Sor)ng
• Each cell to be sorted receives a posi)ve or nega)ve charge and is then deflected from the fluid stream by charged plates
• Same technology as inkjet printers
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Cell sor)ng
h]p://www.appliedcytometry.com/flow_cytometry.php
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Scien&fic American
March 1976
Leonard A. Herzenberg, Richard G. Sweet
and Leonore A. Herzenberg
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Laser light
• Light Amplifica)on by S)mulated Emission of Radia)on
• A non-‐laser light source could be used, but for mul)-‐color flow, light of specific wavelengths is needed
• Also, lasers provide light of sufficient intensity to excite fluorescent dyes to the level necessary to be detectable
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Light collector
• Photomul)plier tubes (PMTs) • Convert light to an electrical signal • Can be very sensi)ve, as li]le as one photon • Amplifies signal
• Voltage applied to the PMT can be adjusted and determines the signal intensity
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Brief note on light • Wavelength determines color • Higher energy light has shorter wavelengths (blue) and lower energy longer wavelengths (red)
h]p://www.earthtym.net/image.htg/em-‐spectrum.jpg
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Op)cal path
• Path of laser light directed to the fluid stream • Path of sca]ered light from the cell to each PMT – Can be quite complex for 20-‐parameter instruments
• Either can be “direct” and posi)oned using mirrors or transmi]ed through op)cal fibers
• Alignment is cri)cal
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Light filters
• Restrict light to selected wavelengths • Each PMT has a bandpass filter so that only light of a selected wavelength range reaches the PMT
• Naming: center/range, e.g., 530/30 passes light of 515 to 545 nm
• Other filters reflect all light above or below a wavelength (long-‐ or short-‐pass filters)
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Flow cytometer 5-‐parameter, 3-‐color example
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
Long-‐pass reflects blue light and transmits all longer wavelengths
Bandpass further restricts wavelength range that reaches PMT
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BD FACSCalibur Configura)on
BD FACSCalibur Op@cal Path Configura@on
h]p://www.bdbiosciences.com/instruments/facscalibur/features/index.jsp
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h]p://facs.scripps.edu/FACSAria.html
BD Octagons and Trigons
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www.bdbiosciences.com/ wcmimages/octagon_canto.jpg
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Example configurations
for LSR instruments
(L, M, Y)
Laser Laser Power Channel Instrument Bandwidth Long Pass Old Detector Name
Blue 488/100mW
B710 L 710/50 685 M 710/50 680 PerCP Cy5.5 Y 710/50 685
B515 L 515/20 505 M 510/30 505 FITC Y 515/20 505
SSC L 488/10 None M 488/10 None SSC Y 488/10 None
Green 532/150mW
G780 L 780/40 740 M 780/60 735 PE Cy7 Y 780/40 740
G710 L None None M None None PE Cy5.5 Y None None
G660 L 660/40 635 M 660/40 635 PE Cy5 Y 660/20 640
G610 L 610/20 595 M 610/20 595 PE Texas Red Y 610/20 600
G575 L 575/26 None M 575/26 None PE Y 575/26 None
Red 628/200mW
R780 L 780/60 735 M 780/60 755 APC Cy7 Y 780/60 755
R710 L 710/50 680 M 710/50 690 Alx700 Y 710/50 685
R660 L 660/20 None M 660/20 None APC Y 660/20 None
Violet 405/100mW
V780 L 780/60 770 M 780/60 770 Qdot800 Y 780/60 770
V750 L None None M None None Not Used Y None None
V710 L 710/40 685 M 710/40 685 Qdot705 Y 710/40 685
V655 L 660/40 635 M 660/40 635 Qdot655 Y 660/40 635
V610 L 610/20 585 M 610/20 585 Qdot605 Y 610/20 585
V570 L 575/25 550 M 575/25 557 Qdot585 Y 575/25 557
V510 L 510/20 495 M 510/20 495 Am Cyan Y 510/20 495
V450 L 450/50 None M 450/50 None Pacific Blue Y 450/50 None
Ultra Violet* 355/20mW
UV730 L 730/45 685 M 730/45 685 Y 730/45 685
UV395 L 379/28 None M 379/28 None Y 379/28 None
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What is measured?
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Shape of signal as cell passes through laser
h]p://mi.img.cas.cz/FACS/LSRII/System%20descrip)on.aspx?id=root_7_1_7
• Typical shape of signal • Height and/or area is used
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Electronics
• Due to large dynamic range required, logarithmic amplifiers are used on “analog” instruments (data is collected a^er log transforma)on)
• Newer “digital” instruments collect data before log transforma)on
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What is detected: sca]ered light
• As cells pass through laser, mul)ple signals are collected: 1. Sca]ered light 2. Fluorescence
• Light is sca]ered by the cell and detectors collect the sca]ered light 1. Forward sca]er 2. Side sca]er
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Forward sca]er
• O^en associated with the size of a cell • E.g., helps to dis)nguish smaller lymphocytes from larger monocytes
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Forward sca]er (FS)
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
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Direct laser light must be removed from forward sca]er
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
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Side sca]er (SS)
• Can be measured at mul)ple angles, but typically is 90 degrees
• Associated with granularity of cells, e.g., granulocytes are high for SS
• In combina)on with FS, useful in iden)fying and excluding dead cells
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Side sca]er
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
Typically detect at 90 deg
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What is detected: fluorescence
• As cells pass through laser, fluorescence light from each cell is detected at the appropriate PMT
• Fluorescence from the fluorescent dyes used as tags or markers for cell an)gens (but also includes auto-‐fluorescence)
• The fluorescent light is emi]ed in all direc)ons, but is only collected and examined from one angle (typically 90 deg)
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Fluorescence: emi]ed light is of longer wavelength (lower energy)
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
Laser light of specified wavelength
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Fluorescent molecules • Each has excita)on and emission characteris)cs and these can be displayed as spectra
• Commonly used fluorescent molecules have been derived from living organisms or have been created ar)ficially
• E.g., phycobiliproteins are from algae – Phycoerythrin, or PE – Allophycocyanin, or APC
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Commonly-‐used fluorescent dyes • PE and APC • Fluorescein or FITC • Texas red, o^en as tandem, PE-‐TR • Cyanine dyes, o^en as tandems, PE-‐Cy7 • Alexa dyes in many colors, e.g., Alx488, Alx655 • Quantum dots • Pacific Blue • Propidium iodide (PI) • “Brilliant” dyes
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Brilliant fluorophores • Conduc)ve organic polymers
– Stems from discovery that earned the 2000 Nobel prize in chemistry
• Synthe)cally tunable network of π-‐orbitals – Many repeat units in a polymer chain
• Extraordinarily high molecular ex)nc)on coefficients, similar to PE and APC
• Series of tandem dyes • Ini)al series was violet excited, now UV and blue excited
Cha]opadhyay et al, Cytometry Part A, 81A: 456-‐466, 2012
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Fluorescent compound intrinsic proper)es
• Quantum yield – probability of emiong a photon once a photon of light is absorbed (efficiency of energy conversion)
• Molar ex)nc)on coefficient – probability of absorbing a photon of light at the wavelength of excita)on
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Brilliant violet characteris)cs Fluorochrome Quantum Yield
Molar Extinction Coefficienta
Excitation/Absorbance
Brilliant Violet 0.69 2,500,000 Violet (405 nm)
R-PE 0.82 1,960,000 Blue (496 nm)
APC 0.68 700,000 Red (650 nm)
Quantum Dot 655 ≈0.3b 5,700,000 Violet (405 nm)
Quantum Dot 585 ≈0.7b 2,200,000 Violet (405 nm)
AlexaFluor 660 0.37 132,000 Red (663 nm)
Fluorescein 0.5 86,000 Blue (488 nm)
AlexaFluor 488 0.92 71,000 Blue (495 nm)
Pacific Blue 0.78 46,000 Violet (405 nm)
aMeasured at the indicated excitation/absorbance wavelength, cm-1M-1 bQuantum yields generally increase for larger Quantum Dots
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Spectra of Fluorescein
300 400 500 600 700 800 Wavelength (nm)
Blue laser, 488 nm
Excitation spectrum
Emission spectrum
530/30= 515-545nm
centered on 530
Useful resources = http://www.bdbiosciences.com/spectra/
Collection filter (Bandpass filter)
http://probes.invitrogen.com/resources/spectraviewer/
Excitation spectrum shows range of wavelengths that can excite dye (determines which laser to use)
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575/25
Collection Filter (wavelength/bandpass)
Spectra of dyes: 2-color example
300 400 500 600 700 800 Wavelength (nm)
Different emission spectra allow signals to be distinguished
Some Fluorescein detected in PE filter
530/30
Blue laser, 488 nm
Use narrow filter with green laser, 515/10
Fluor
PE
Excitation spectrum
Emission spectrum
Green laser, 532 nm
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h]p://www.rockefeller.edu/fcrc/pdf/642221_BD_LSRII_Users_Guide.pdf
Emission spectra of common dyes
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Cell iden)fica)on
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Specific cell labeling • Flow cytometry was made feasible because of two technologies: lasers and monoclonal an)bodies
• Monoclonal an)bodies are “specific”, i.e., bind to only a single an)genic determinant
• An)bodies are an important component of the immune system, but for flow, they are simply used as a tool
• For human studies, an)bodies to human an)gens are produced in other species (mouse, rat)
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Cell an)gens
• An)gens refer to “determinants” that can induce an an)body response
• Different cell types o^en express different an)gens
• For the purpose of flow these an)gens are simply used as “markers” even though they likely have important func)ons for that par)cular cell type
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Fluorochrome-‐an)body reagents • Monoclonal an)bodies to the marker of interest provide specificity
• To allow visualiza)on in flow, the an)body must be labeled with a fluorescent dye
• Many different methods for a]aching the fluorescent dye to the an)body have been developed (typically through covalent chemical bonds)
• These are o^en referred to as an)body-‐dye conjugates or reagents
![Page 48: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/48.jpg)
Fluorescent labeling of cells • Specificity is typically provided by monoclonal an)bodies specific for selected cell an)gens (such as CD4, CD8…)
• An)bodies of different specifici)es are tagged or labeled with fluorescent molecules of different “colors”
• Cells are labeled by reac)on with the an)body-‐dye reagent (“staining”). Any reagent that does not s)ck to the cell is washed off.
![Page 49: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/49.jpg)
Note on nomenclature
• An)gens of interest on cells o^en have been assigned “CD” numbers (cluster of differen)a)on)
• These an)gens may have been chosen as the marker of interest because of a func)on they perform, or simply because they have been shown to label a cell of interest
![Page 50: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/50.jpg)
Example of larger fluorophore a]ached to an)body
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
![Page 51: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/51.jpg)
Mul)-‐parametric flow cytometry • Mul)ple measurements on each cell (in addi)on to forward and side sca]er)
• A single marker is o^en insufficient to iden)fy cell of interest
• A common example is measurement of T cells – Three markers typically used – CD3 is one component of the T cell receptor and therefore marks all T cells
– CD4 and CD8 mark the two major types of T cells
![Page 52: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/52.jpg)
Example of CD3 and CD4 staining
h]p://www.appliedcytometry.com/flow_cytometry.php
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Mul)-‐parametric flow cytometry requirements
• Dyes of different “colors” used in combina)on • Must be able to dis)nguish the signals from each of these dyes
• Choose dyes that emit light of different colors • Use different detectors for each dye and only collect light of the appropriate color in each detector
![Page 54: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/54.jpg)
Nomenclature • Each different dye in a mul)-‐parameter flow assay is o^en referred to as a “color”, such as an “8-‐color” experiment
• On the flow cytometer, each color requires a light path and light detector and this is o^en referred to as a channel
• The color and/or channel may be named using the name of the fluorescent dye such as the FITC or PE channel or simply numbered (FL1) – Generic naming by laser color and center of bandpass filter, e.g., B515, G575
![Page 55: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/55.jpg)
Why mul)ple lasers
• Each laser type emits light of a specific wavelength(s)
• Mul)ple lasers allow an increase in the total number of colors or markers that can be examined in each assay (because there is greater choice in dyes)
• Dyes that are excited at different wavelengths can be used in combina)on (even if they emit at similar wavelengths)
![Page 56: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/56.jpg)
Flow data display
![Page 57: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/57.jpg)
Flow data display
• Single dimensional histogram • Two-‐dimensional
– Dot plot – Contour plot – Pseudo-‐color plot
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Histogram display: distribu)on of number of cells (y-‐axis) vs. signal intensity (x-‐axis)
(forward sca]er example)
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
![Page 59: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/59.jpg)
Two-‐dimensional plots vs. histograms
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
![Page 60: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/60.jpg)
Visualizing two dimensions
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
![Page 61: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/61.jpg)
Display op)ons
0 103 104 105
<PerCP Cy55 Blue-A>: CD8
0
103
104
105
<Ale
xa 6
80-A
>: C
D4
0 103 104 105
<PerCP Cy55 Blue-A>: CD8
0
103
104
105
<Ale
xa 6
80-A
>: C
D4
0 103 104 105
<PerCP Cy55 Blue-A>: CD8
0
103
104
105
<Ale
xa 6
80-A
>: C
D4
0 103 104 105
<PerCP Cy55 Blue-A>: CD8
0
103
104
105
<Ale
xa 6
80-A
>: C
D4
091014-‐NK Cell Round 3-‐JK
Density (Pseudocolor) Dot plot
Contour Greyscale density
![Page 62: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/62.jpg)
Even sca]er alone (without fluorescence signal) can iden)fy cell types
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
![Page 63: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/63.jpg)
Flow data analysis
• A “gate” is used to select a group of cells of interest
• It is typically a rectangle or polygon • Typically, mul)ple gates are used and o^en in a hierarchical format (a ga)ng tree) in which each new gate is a subset of cells in the prior gate
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Ga)ng tree example in Flow Jo
091014-‐NK Cell Round 3-‐JK
![Page 65: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/65.jpg)
Ga)ng example: T cells iden)fied as CD3+, then CD4+ and CD8+ cells gated
0 103 104 105
<PerCP Cy55 Blue-A>: CD8
0
103
104
105
<Ale
xa 6
80-A
>: C
D4
53.7
36.2
0 103 104 105
<PerCP Cy55 Blue-A>: CD8
0
102
103
104
105
<PE
Cy7
-A>:
CD
3
78.2
091014-‐NK Cell Round 3-‐JK
![Page 66: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/66.jpg)
Compensa)on
• Fluorescent signals from different dyes overlap so that the signal from dye 1 is detected in the signal from dye 2, and/or vice-‐versa
• Mathema)cally, this can be corrected by subtrac)ng out the part of the signal in the dye 2 channel that is due to dye 1
• Single-‐stained controls are used to determine compensa)on percentages
![Page 67: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/67.jpg)
Compensation • Spectral overlap between dyes results in the
detection of the fluorescence from one dye in one or more other detectors (primary vs. spillover fluorescence)
• The spillover fluorescence must be subtracted from the total fluorescence detected in the secondary detector
• This spillover fluorescence is proportional to the level of the primary fluorescence
• For each cell, a specified percentage of the primary fluorescence is subtracted from the total fluorescence detected in the secondary detector
![Page 68: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/68.jpg)
h]p://www.invitrogen.com/site/us/en/home/support/Tutorials.html
Single stain Alx488: subtract signal in PE
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FITC into PE
Data provided by J. Stucky, 041012
100 101 102 103 104100
101
102
103
104
85
4
3 26
FL1: FITC
FL2: PE
Sample stained only with FITC % spillover of FITC into PE=
MFIFL2(pos) - MFIFL2(neg) MFIFL1(pos) - MFIFL1(neg)
x100
FluorescenceFL2 FluorescenceFL1
x100
26 - 3 85 - 4
x100 = 28%
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FITC into PE
Data provided by J. Stucky, 041012
FL1: FITC
FL2: PE
Sample stained only with FITC % spillover of FITC into PE=
MFIFL2(pos) - MFIFL2(neg) MFIFL1(pos) - MFIFL1(neg)
x100
FluorescenceFL2 FluorescenceFL1
x100
26 - 3 85 - 4
x100 = 28%
100 101 102 103 104100
101
102
103
104
Compensated
![Page 71: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/71.jpg)
Advanced topics in Fluorescence Spillover Compensation
Mario Roederer, Cytometry 45:194-205 (2001)
Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats
Nicole Baumgarth and Mario Roederer Journal of Immunological Methods 243:77-97 (2000) A practical approach to multicolor flow cytometry for immunophenotyping
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Bi-exponential or logicle transformation
• Transforms the log scale to display values below zero
• This allows better visualization of populations centered around zero
• This display feature is now available in most FACS analysis software
![Page 73: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/73.jpg)
Transformation Confirms Compensation
0 103 104 105
0
10 3
10 4
10 5
101 102 103 104 105
10 1
10 2
10 3
10 4
10 5
101 102 103 104 105
10 1
10 2
10 3
10 4
10 5
0 103 104 105
0
10 3
10 4
10 5
CD4
CD8
Median
Transformed
Slide provided by M. Roederer, NIH
Not Transformed
![Page 74: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/74.jpg)
Tandem dyes
• Dyes covalently linked so that energy from one dye is transferred to the other (resonance energy transfer)
• Ideally, when the dye is excited, it emits mainly at the wavelength characteristic of the second dye (with little emission from the first dye)
• Examples: PE-Cy5, PE-TR (ECD), PerCP-Cy5.5, PE-Cy7, APC-Cy7
![Page 75: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/75.jpg)
Spectra: 3-color example (one laser)
665/30
525/50
575/25
Fluor
PE
CyPE
ArgonLaser
488 nm
Collection Filter(wavelength/bandpass)
Emissionspectrum
Excitationspectrum
300 400 500 600 700 800Wavelength (nm)
Cy5PE
Excitation spectrum same as PE
(plus high peak)
New emission peak due to Cy5
![Page 76: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/76.jpg)
Additional lasers
• The addition of a second (or third or fourth) laser allows for use of dyes excited at another wavelength(s)
• There are time delays for different lasers, so even if dyes have similar emission spectra, the signals can be distinguished by time
§ But, if a dye is excited by more than one laser, then “cross-laser” compensation is required
![Page 77: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/77.jpg)
Laser Delay A single cell flowing
through flow cell
time Tblue+violet delay
time Tblue
time Tblue+red delay
time Tblue+green delay
Signal collected at:
![Page 78: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/78.jpg)
665/30
Spectra: 4-colors (2 lasers)
525/50
575/25
300 400 500 600 700 800 Wavelength (nm)
660/40
Collection Filter (wavelength/bandpass)
Excitation spectrum
Emission spectrum
Fluor
PE
PE-Cy5
APC
Blue laser, 488 nm
Green laser, 532 nm
Red laser, 635 nm
Cross-laser comp discussed later
![Page 79: IntroducontoFlowCytometry* · Mario Roederer, Cytometry 45:194-205 (2001) Spectral Compensation for Flow Cytometry: Visualization Artifacts, Limitations, and Caveats Nicole Baumgarth](https://reader034.fdocuments.net/reader034/viewer/2022042612/5f8851e9b723447a244bb589/html5/thumbnails/79.jpg)
Learning points
• What are the parts of a flow cytometer? • What is a flow cytometer used for? • How are fluorescent dyes and monoclonal an)bodies used in flow cytometry?
• How are flow cytometric data displayed? • What limits the number of colors or parameters measured?