Bi9393 Analytická cytometrie
Lekce 5
Oddělení cytokinetiky
Biofyzikální ústav AVČR, v.v.i.
Královopolská 135
612 65 Brno
e-mail: ksoucek@ibp.cz
tel.: 541 517 166
Karel Souček, Ph.D.
K. Souček Bi9393 Analytická cytometrie

Fluorescenční proteiny
nbioluminescence resonance energy transfer (BRET)
–Aequorea victoria - medúza žijící ve vodách na pobřeží Severní Ameriky.
–je schopna modře světélkovat (bioluminescence). Ca2+ interaguje  s fotoproteinem aequorinem.
–modré světlo excituje green fluorescent protein.
–Renilla reniformis – korál žijící ve vodách na severním pobřeží Floridy.
–luminescence vzniká degradací coelenterazinu za katalytického působení luciferázy.
–modré světlo excituje green fluorescent protein.
–
–
Renilla reniformis "Sea Pansy"
http://www.mbayaq.org/efc/living_species/default.asp?hOri=1&inhab=440
Aequorea victoria “Crystal jelly “
http://www.whitney.ufl.edu/species/seapansy.htm

Fluorescenční proteiny
http://www.conncoll.edu/ccacad/zimmer/GFP-ww/GFP2.htm


Fucci
(fluorescent ubiquitination-based cell cycle indicator) cells
Nature Methods - 5, 283 (2008)
Ubiquitin E3 ligase complexes
G1 - APCCdh1
S, G2, M- SCFSkp2

Fucci



n



Detekce reaktivních kyslíkových skupin
nReaktivní kyslíkové skupiny hrají klíčovou roli v celé řadě biologických procesů
–posttranslační modifikace proteinů
–regulace transkripce
–regulace struktury chromatinu
–přenos signálu
–funkce imunitního systému
–fyzický a metabolický stres
–neurodegenerace, stárnutí

n
n
O2• –
O2
H2O2
• OH
H2O
4 e– reduction to water
e–
e–
e–
e–
Not so terribly reactive with most biomolecules
Maintained at very low concentration
Catalases, peroxidases, GSH, etc…
Actually a chemical reductant
Not so terribly reactive with most biomolecules
Mitochondrial superoxide the major source of active oxygen
Maintained at very low concentration
Superoxide dismutases
Reacts with virtually any molecule at diffusion-limited rates
The molecule that makes ionizing radiation toxic
Unreactive at STP, but a great electron acceptor
Biological activation via radicals, transition metals
Generally, radical intermediates are enzyme-bound
© Simon Melov

Potential sites of intervention
Oxidative
Stress
Neurodegeneration
Cancer
Vascular Tone
Cardiac Output
Sensory Acuity
Skin Thickness
Bone Density
Endocrine Function
Immune Function
DNA
Damage
Oncogenesis
Mitochondrial
Damage
Energy
Crisis
Cell Death
© Simon Melov

Hydroethidine
HE  EB
N
CH2CH3
NH2
H2N
H
Br-
N
CH2CH3
NH2
H2N
+
O2-
Phagocytic Vacuole
SOD
H2O2
NADPH
NADP
O2
NADPH Oxidase
OH-
O2-
DCF
HE
O2-
H2O2
DCF
Example: Neutrophil Oxidative Burst
© J. P. Robinson, Purdue University

DCFH-DA               DCFH              DCF
COOH
H
Cl
O
O-C-CH3
O
CH3-C-O
Cl
O
COOH
H
Cl
OH
HO
Cl
O
COOH
H
Cl
O
HO
Cl
O
Fluorescent
Hydrolysis
Oxidation
2’,7’-dichlorofluorescin
2’,7’-dichlorofluorescin diacetate
2’,7’-dichlorofluorescein
Cellular Esterases
H2O2
DCFH-DA
DCFH-DA
DCFH
DCF
H  O
 2   2
Lymphocytes
Monocytes
Neutrophils
log FITC Fluorescence
.1
 1000
  100
   10
    1
0
20
40
60
PMA-stimulated PMN
Control
80
© J. P. Robinson, Purdue University

- DCFH-DA
- DHR-123
- HE
Oxidative Burst
K. Souček Bi9393 Analytická cytometrie




Fluorescent sensors for detection of H2O2



Variants & fusions
npHyPer-cyto vector
npHyPer-dMito vector
–Duplicated mitochondrial targeting sequence (MTS) is fused to the HyPer N-terminus. MTS was
derived from the subunit VIII of human cytochrome C oxidase [Rizzuto et al., 1989; Rizzuto et al.,
1995].
npHyPer-nuc vector
–Three copies of the nuclear localization signal (NLS) fused to the HyPer C-terminus provide for
efficient translocation of HyPer to the nuclei of mammalian cells [Fischer-Fantuzzi and Vesco,
1988]
n
n
n







biarsenical–tetracysteine system
nNefluorescenční, membránově permeabilní biarsénová značka vytváří kovalentní fluorescenční komplex
s jakýmkoliv intracelulárním proteinem obsahujícím krátký tetracysteinový motiv (CCPGCC)

biarsenical–tetracysteine system



Click azide/alkyne reaction
http://www.invitrogen.com/etc/medialib/en/images/ics_organized/applications/cell_tissue_analysis/da
ta_diagram/750_wide.Par.94243.Image.-1.-1.1.gif Invitrogen

Aplikace Click-IT (Invitrogen)
Multiplex imaging with Click-iT® RNA assays.
NIH3T3 cells were incubated with 1 mM EU, formaldehyde-fixed, and permeabilized with Triton® X-100.
EU incorporated into newly synthesized RNA (red) in some cells was detectied using the Click-iT®
RNA Alexa Fluor® 594 Imaging Kit. Tubulin (green) was detected with anti-tubulin mouse IgG9 and
visualized with Alexa Fluor® 488 goat anti-mouse IgG. Nuclei (blue) were stained with Hoechst
33342.

Aplikace Click-IT (Invitrogen)
analýza syntézy DNA (proliferace)


02ClickiTAnim01
Tritiated (3H) thymidine
3H-thymidine

02ClickiTAnim01
• Original method for measuring cell proliferation
• Radioactive
• Not compatible for multiplexed analyses
3H-thymidine

02ClickiTAnim01 BrdU03
BrdU (5-bromo-2'-deoxyuridine)
BrdU
Br
Br
Br
Br

02ClickiTAnim01
Br
Br
Br
Br
BrdU

02ClickiTAnim01missing 02ClickiTAnim01
Br
Br
Br
Br
BrdU

02ClickiTAnim01missing
Br
Br
Br
Br
BrdU

02ClickiTAnim01missing
Br
Br
Br
Br
BrdU
• Non-radioactive
• Multiplex compatible but, strand separation requirement for anti-BrdU access, can affect:
• Ability for other antibodies to bind
• Morphology
• Ability for dyes that require dsDNA to bind efficiently, i.e., cell cycle dyes

EduBlack01 02ClickiTAnim01
EdU (5-ethynyl-2'-deoxyuridine)
Click-iT™ EdU

02ClickiTAnim01
Click-iT™ EdU
FluorBefore01 FluorAfter01 FluorBefore01 FluorAfter01 FluorBefore01 FluorAfter01 FluorBefore01
FluorAfter01

02ClickiTAnim01
Click-iT™ Edu
FluorAfter01 FluorAfter01 FluorAfter01 FluorAfter01
• Non-radioactive
• No DNA denaturation required
• Simplified protocol
• Small molecule detection
• Multiplex compatible, including
• Other antibodies
• Dyes for cell cycle analysis

Flow cytometry
most common application
Viability assays (propidium iodid, CalceinAM, …)
Proliferation (BrdU, EdU, mitosis - pH3)
DNA damage ( yH2AX,…)
Cell Death analysis (AnnexinV, Cleaved Caspase3, …)
Cell Cylcle (DNA content, Cell cycle modulation after treatment)
Immunophenotype characterisation of the cells
(CSCs markers, differentiation, …)

nNot possible to use fluorochromes prior to click-iT reaction, e.g. PE, Qdots,…
Incompatibility of Fluorochrome
with Click-iT reaction
procedure
Live cells
Fixed cells
Permeabilized cells
Click-iT
•Several antibodies are not compatible with the procedure

Example of final set-up
Parametr
Marker
Fluorochrome
Cell Surface Marker
CD44
APC/Cy7
Cell Surface Marker
Trop-2
AF488
Viability
LIVE/DEAD kit
Yellow
DNA synthesis
Click-iT EdU
AF647
Cell Cycle
DNA content
PO-PRO-1
DNA damage
yH2AX
PE
Apoptosis
Cleaved Caspase 3
AF494

Example of final results (DU-145)
Viability and Immunophenotype
Cell cycle and Proliferation

Example of final results
DNA damage and Apoptosis


„High Throughput Flow Cytometry“
nautomatizace + robotizace = urychlení a efektivita sběru dat (měření desítky vzorků za hodinu s
minimálním zásahem operátora )
nvyužití principu vícebarevné analýzy
K. Souček Bi9393 Analytická cytometrie

Automatizované systémy měření vzorků
Automatický karusel (autosampler)
Adaptér pro nasávání vzorků z
mikrotitrační desky
logo_becton%20dickinson

Automatizovaný „microsampler“ systém
cytek
K. Souček Bi9393 Analytická cytometrie
Universal Loader - Lab Image
https://encrypted-tbn0.gstatic.com/images?q=tbn:ANd9GcSG6MDDEyKW2lrEy-4pYcbhalq94g7mws3iCujkWC8szVo
IZvRtvw







The steps in a high-throughput fluorescence-microscopy experiment.



Analysis












[USEMAP]
http://www.stanford.edu/group/nolan/
Garry Nolan
Peter Krutzik
„Fluorescent cell barcoding“

Fig 1 full size
Krutzik PO, Nolan Fluorescent cell barcoding in flow cytometry allows high-throughput drug
screening and signaling profiling.
Nat Methods. 2006 May;3(5):361-8.
K. Souček Bi9393 Analytická cytometrie

>

Fig 3 full size
Krutzik PO, Nolan Fluorescent cell barcoding in flow cytometry allows high-throughput drug
screening and signaling profiling.
Nat Methods. 2006 May;3(5):361-8.
K. Souček Bi9393 Analytická cytometrie

Aim: To identify new surface molecules associated with epithelial-to-mesenchymal transition
-many intracellular markers known, but no reliable surface antigen enabling tracking of EMT
available
-
-

Aim: To identify new surface molecules associated with epithelial-to-mesenchymal transition
•
-many intracellular markers known, but no reliable surface antigen enabling tracking of EMT
available
-
•WHY TO HAVE SUCH SURFACE ANTIGEN?
-vital cell characterisation and further compatibility with downstream applications (e.g. cell
sorting, cultivation, in vivo studies…)
-this approach is applicable to any field in cell biology
•
-

Model cell lines
HUMAN PANEL
HMLE
HMLE-EMT
MCF10A
MCF10A KRasV12
BPH-1
CAFTD03
MOUSE PANEL
MMC Her2
ANV2 Her2
cE2 Pten -/-
E2 Pten -/-
RM1 Myc/Ras
UGSM Ink4-/-

Get the best out of your model
FACS-based surface screen:
•validated antibodies in 96w plates
•several comercially available possibilities, we have gone for…
- LEGENDScreen HUMAN
332 PE conjugated antibodies + ISOs
- LEGENDScreen MOUSE
252 PE conjugated antibodies + ISOs
•
•
-there are XY vials in LN
-price of kit ≈ 1000 € (27k Kc)
How to get the best of it all?

Fluorescent barcode
possibility 1 – fluorescent proteins
- which, how many, isn’t it too laborous w/out lentiviral TXF?
-
possibility 2 – amino-reactive probes, lipophilic dyes…
- how to choose the right one?

Final workflow



The optimal concentation issue
•HOW TO TEST IT:
•10x serial dilution
•
•
•REQUIREMENTS:
•
•optimal resolution
•compatibility w/ PE
•
•

Sample results I
•EpCAM
•- marker of epithelial cells
•- commonly lost during EMT

Sample result II



Cytometric bead array (CBA)
nMultiplexed Bead-Based Immunoassays
nflow cytometry application that allows users to quantify multiple proteins simultaneously

Multiplex microsphere‐based flow cytometric platforms for protein analysis and their application in
clinical proteomics – from assays to results
ELECTROPHORESIS
Volume 30, Issue 23, pages 4008-4019, 3 DEC 2009 DOI: 10.1002/elps.200900211
http://onlinelibrary.wiley.com/doi/10.1002/elps.200900211/full#fig1

Microspheres can be immobilized with capture molecules and immunoassays can be performed. (A)
Coupling reactions for microspheres: Microspheres with functional groups (carboxyl‐, thiol‐) can be
used for immobilizing peptides, proteins, or amino group‐functionalized molecules; alternatively,
streptavidin‐functionalized microspheres can be applied for biotin‐labeled capture molecules. (B)
Standard capture sandwich assay: An individual assay involving an optically encoded microsphere
immobilized with a specific capture molecule (antibody) is being carried out on the particle. After
sample incubation, another analyte‐specific antibody (a so‐called detection antibody, which is
biotinylated and usually recognizes epitopes that are different from that of the capture
antibodies) is then applied to the reaction. The presence and quantity of the reporter tag (e.g.
strepavidin‐phycoerythrin) allows the precise quantification of the reactions that occur.
© This slide is made available for non-commercial use only. Please note that permission may be
required for re-use of images in which the copyright is owned by a third party.

CBA



CBA
nmultiplexing capabilities
nspeed
nincorporation of multiple assay formats
nrapid assay development and reasonable cost
nautomation

Biologické aplikace průtokové cytometrie
nCytogenetika
–analýza chromozómů
•karyotyp
•sortrování
–chromozómové DNA knihovny
–FISH značení (chromosome painting)
•
K. Souček Bi9393 Analytická cytometrie

Analýza a sortrování chromozómů



Analýza a sortrování chromozómů
nsynchronizace buněk – zisk metafázních chromozómů (colcemid, hydroxyurea)
nizolace chromozómů
nznačení DAPI nebo Hoechst vs. chromomycin A3 (CA3) nebo mithramycin
n= celková DNA vs. G/C-bohaté oblasti
n
NCBI PubChem logo
http://www.scienceclarified.com/Ca-Ch/Chromosome.html
http://www.nccr-oncology.ch/scripts/page9243.html

Analýza a sortrování chromozómů



e-bang



„Flow karyotype“
http://www.sanger.ac.uk/HGP/Cytogenetics/
♂
♀
Karcinom močového měchýře

Sortrování chromozómů
Pisum sativum


Sortrování chromozómů
Vicia faba


Aplikace průtokové cytometrie v mikrobiologii
nekologie
npotravinářství
http://www.cyto.purdue.edu/flowcyt/research/micrflow/

Aplikace průtokové cytometrie v mikrobiologii



Aplikace průtokové cytometrie v mikrobiologii
nviabilita
nmetabolické funkce
nsortrování
nanalýza aerosolů (Fluorescence Aerodynamic Particle Sizer (Flaps))
n

Aplikace průtokové cytometrie v mikrobiologii
nSortrování
–EPICS + Autoclone® modul
n

Fluorescence Aerodynamic Particle Sizer (Flaps)
http://www.dres.dnd.ca/ResearchTech/Products/CB_PRODUCTS/RD98001/index_e.html


Průtoková cytometrie kvasinek
nbuněčné dělení
nviabilita
nmembránový potenciál
nrespirace
nprodukce H2O2
ncitlivost k antibiotikům
nseparace
n
Saccharomyces cerevisiae
http://en.wikipedia.org/wiki/Image:Budding_yeast_Lifecycle.png
http://www.sbs.utexas.edu/mycology/sza_images_SEM.htm

Průtoková cytometrie kvasinek



Průtoková cytometrie v hydrobiologii
nstudium pico- a nano-fytoplanktonu (< 20 mM)
nanalýza metabolických funkcí planktonu
nstudium pigmentace (analýza chlorofylu a fykoeritrinu)

Průtoková cytometrie v hydrobiologii



Průtoková cytometrie v hydrobiologii
nanalýza DNA
http://planktonnet.awi.de/portal.php?pagetitle=assetfactsheet&asset_id=15127
http://www.soes.soton.ac.uk/staff/tt/

[USEMAP]
Průtoková cytometrie v hydrobiologii
http://www.cyto.purdue.edu/flowcyt/research/micrflow/sieracki/sierack2.htm
Absorption Spectrum Emission Spectrum
http://omlc.ogi.edu/spectra/PhotochemCAD/html/chlorophyll-a(MeOH).html




Průtoková cytometrie bezobratlých
nlze aplikovat běžné metodické přístupy a fluorescenční značky
n
nPříklady aplikací:
–buněčný cyklus
–cytotoxicita
–apoptóza
Long Tongue Tachinid Fly 240px-Miesmuscheln_Mytilus_2

Invertebrate Survival Journal
[USEMAP]
http://www.icms.qmul.ac.uk/flowcytometry/uses/insects/index.html

nFigure 5. Representative flow-cytometry scatter plot of hemocytes from 25 oysters.
Rebelo MdF, Figueiredo EdS, Mariante RM, Nóbrega A, et al. (2013) New Insights from the Oyster
Crassostrea rhizophorae on Bivalve Circulating Hemocytes. PLoS ONE 8(2): e57384.
doi:10.1371/journal.pone.0057384
http://www.plosone.org/article/info:doi/10.1371/journal.pone.0057384

nFigure 6. Proposed model for hemocyte maturation, as seen by flow cytometry.
Rebelo MdF, Figueiredo EdS, Mariante RM, Nóbrega A, et al. (2013) New Insights from the Oyster
Crassostrea rhizophorae on Bivalve Circulating Hemocytes. PLoS ONE 8(2): e57384.
doi:10.1371/journal.pone.0057384
http://www.plosone.org/article/info:doi/10.1371/journal.pone.0057384

Shrnutí přednášky
n„High-throughput“ průtoková cytometrie …
n … a uplatnění vícebarevné detekce a beads array
n sortrování chromozómů
n aplikace v mikrobiologii, hydrobiologii a studiu bezobratlých
Na konci dnešní přednášky byste měli:
1.
1.vědět co je to „high-throughput„ průtoká cytometrie
 …a jak se v ní může uplatnit princip vícebarevného značení.
2.znát základní principy měření a sortrování chromozómů pomocí průtokového cytometru;
3.mít představu o možných aplikacích průtokové cytometrie v mikrobiologii, hydrobiologii a studiu
bezobratlých
K. Souček Bi9393 Analytická cytometrie