fluorescent proteins for konstantin lukyanov [email protected]...
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Konstantin Lukyanov
Institute of Bioorganic
Chemistry
Moscow, Russia
Fluorescent proteins for
multiparameter imaging of
live cells and animals
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Fluorescent proteins of GFP family
• Fully genetically encoded fluorescent probes (only O2 is required)
• Interesting biochemistry, photochemistry and photophysics
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Fluorescent proteins of GFP-like proteins: chemically distinct chromophores produce
a variety of colors
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Flavin-binding fluorescent
proteins (green)
Bilirubin-binding fluorescent
protein UnaG (green)
Biliverdin-binding fluorescent
proteins (far-red – near infrared)
“Genetically encoded” fluorescent proteins that bind endogenous cofactors
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mC
ard
inal
iRF
P
Spectral diversity of fluorescent proteins
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Whole-body imaging with
far-red fluorescent proteins
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IVIS Lumina II fluorescence images of nude mice injected into the gluteal muscle (5 mm depth) with HEK293FT
cells (5x106) transiently expressing FPs together with IRES-driven luciferase.
Prior to injection, cells were normalized for transfection efficiency with luciferase activity.
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Comparison of signal-to-noise ratios of far-red FPs
• IVIS Lumina II.
• Nude mice injected into the
gluteal muscle, ~5 mm
depth.
• HEK293FT cells (5x106)
transiently expressing FPs
together with IRES-driven
luciferase.
• Normalization for
transfection efficiency
using luciferase activity.
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FP-expressing HEK293FT cells (2.5x106) were engrafted
subcutaneously into the same mice and imaged using IVIS Lumina II.
KatushkaKatushka2S
eqFP650eqFP670
E2-CrimsonmCardinal
Multicolor imaging with far-red FPs using spectral unmixing
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Far-red FRET sensor for caspase-3 activity
DEVD
mKate2 iRFP
FRET
mKate2 iRFP
DEVD
No FRET
Caspase-3
Wavelength, nm
Ab
so
rba
nce
or
em
issio
n
Potential advantages:
- Better light penetration in
whole-body imaging
- Free channels from blue to
orange for multicolor imaging
(all GFP-based fusions and
sensors can be used)
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0.8
1.0
1.2
1.4
1.6
1.8
2.0
0 50 100 150 200 250 300 350 400
Time, min
mK
ate
/iR
FP
ratio
Cell 1 Cell 2 Cell 3
Red
(mKate2)
Infrared
(iRFP)
Mean 1.6 0.2
Caspase-3 activation during staurosporine-induced apoptosis
CT26 cells stably expressing mKate2-DEVD-iRFP sensor
Zlobovskaya et al.,
Biotechniques, Feb 2016.
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Multiparameteric imaging: caspase-3 activation + Bax translocation
Cell Death and
Differentiation (2004) 11,
512–526.
http://www.tankonyvtar.hu/hu/tartalom/tamop425/00
11_1A_Jelatvitel_en_book/ch03s04.html
EGFP-Bax
mKate2-DEVD-iRFP
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Caspase-3 activation + Bax translocation during staurosporine-induced apoptosis
Early Bax translocation
(10% of the cells)
Late Bax translocation
(90% of the cells)
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Multiparameter imaging: caspase-3 activation + Bax translocation
Cell Death and
Differentiation (2004) 11,
512–526.
Caspase-9
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Fluorescent proteins
with anionic tryptophane-
based chromophore
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Protonation-deprotonation is a common feature of Tyrosine-based green and red chromophores
Chromophore ionization is used in:
• Photoactivatable fluorescent proteins – PA-GFP, PS-CFP, Dronpa, etc.
• Sensors – Pericams, GCaMPs (Ca2+), pHluorins, deGFP (pH), roGFP (redox),
HyPer (H2O2), etc.
• Large Stocks-shift fluorescent proteins – Sapphire, Keima, LSS-mKate, etc.
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Cyan Fluorescent Proteins: chromophore’s Tyr mutated to Trp
Cyan FPs (ECFP, Cerulean, mTurquoise) with chromophore-forming Trp66 are
widely used for multicolor labeling and FRET.
No charged states of CFP chromophore have been described.
Y66W
GFP chromophore CFP chromophore
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Can we create fluorescent protein with anionic tryptophan-based chromophore?
Molecular evolution
of mCerulean:
Lys/Arg near Trp66 +
random mutagenesis
New form!
Study of
synthetic CFP
chromophore
pKa 12.4
Sarkisyan el al., Sci. Rep. 2012
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WasCFP (W in anionic state) –the first FP with anionic Trp66 in chromophore
(at 4ºC)
Ex 494 nm
Em 505 nm
Sarkisyan el al., Sci. Rep. 2012
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Temperature sensitivity of WasCFP
Sarkisyan el al., Sci. Rep. 2012
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pH- and temperature-stable variant of WasCFP - NowGFP
Sarkisyan et al., Biophys. J. 2015
Ex 494 nm
Em 505 nm
QY: 0.78
EC: 56700 M-1cm-1
t = 5.1 ns!
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Pletnev et al., Acta Crystallogr D Biol Crystallogr. 2015
Crystal structure of NowGFP
Lysine 61 is H-bonded
with the chromophore!
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Fluorescence lifetime imaging (FLIM) with NowGFP:
“two-color” FLIM in green channel (EGFP + NowGFP)
Intensity FLIM
EGFP NowGFP
b
Sarkisyan et al., Biophys. J. 2015
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“Two-color” FLIM in green channel (EGFP + NowGFP) in Drosophila larva
EGFP
NowGFP
Intensity FLIM
Sarkisyan et al., Biophys. J. 2015
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Perspectives:
• Multiparameter FLIM
• Efficient FRET donors
• New sensors based on protonation-deprotonation of Trp-chromophore
• New red FPs with anionic Trp-chromophore
• New photoactivatable FPs with anionic Trp-chromophore
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Fluorescent proteins as active photochemical agents
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Genetically encoded photosensitizer KillerRed
Bulina et al, Nat. Biotech. 2006
Serebrovskaya et al., Biochem. J., 2011
Serebrovskaya et al., J. Biophot. 2014
KillerRed-fusions – Inactivation of
target proteins
KillerRed-membrane – Cell killing
KillerRed-mitochondria
KillerRed-lysosome
KillerRed-H2B – DNA damage
– Cell cycle arrest
– Cell killing
1min 4minXRCC1
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KillerOrange – a mutant of KillerRed
Sarkisyan et al PLOS1 2015
KillerRed
KillerOrange
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Bacterial cells
KillerOrange is phototoxic under blue light
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KillerOrange is phototoxic for mammalian cells
HeLa cells expressing KillerRed-mito or KillerOrange-mito.
Sarkisyan et al PLOS1 2015
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Applications of phototoxic proteins
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Photobleaching
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How to suppress photobleaching of fluorescent proteins in live cells?
• Improvement of hardware for microscopy (illumination regimes,
sensitive detectors, etc)
• Improvement of fluorescent proteins by mutagenesis (e.g., EBFP2
is 550-fold more photostable than EBFP)
•Optimization of imaging media for live cell microscopy (“antifading
reagents”)
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GFPs are light-induced electron donors
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Green-to-red photoconversion (oxidative redding) of EGFP
Bogdanov et al, Nature Chem. Biol. 2009
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EGFP redding in mammalian cells
Live HEK293T cells in DMEM
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EGFP photostability can be enhanced by depletion of vitamits and addition of rutin
Bogdanov et al, Nat. Meth. 2009; PLOS One 2012
Live HEK293T
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DMEM
F12
Imaging media for enhanced GFP photostability
Mamontova et al.,
Biotechniques 2015
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Suppression of oxidative redding of green FPs is
an efficient way to improve photostability:
- Imaging media depleted of oxidants (flavin, piridoxal)
- Imaging media with antioxidants (rutin)
- Calculation of possible electron transfer pathways within FP;
mutation of key residues
Acceptors
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Inst of Bioorganic
Chemistry
Moscow, Russia
Konstantin Lukyanov
Nadya Gurskaya
Alexey Bogdanov
Alexander Mishin
Karen Sarkisyan
Anton Pereverzev
Ekaterina Serebrovskaya
Olga Zlobovskaya
Anastasia Mamontova
Dmitry Gorbachev
Dmitry Chudakov
Dmitry Shcherbo
Irina Shemyakina
Andrey Zaraisky
Galina Ermakova
(Xenopus imaging)
Vladimir Pletnev
Nadezda Pletneva
(crystal structures)
Georgia Tech, Atlanta, USA
Kyril Solntsev
(ultrafast spectroscopy)
Nizhny Novgorod State
Medical Academy, Russia
Elena Zagaynova
Natalia Klementieva
Marina Shirmanova
Tatiana Sergeeva
(mice imaging; single molecule
imaging, FLIM)
Bach Inst of Biochemistry
Moscow, Russia
Alexander Savitsky
Alexander Goryaschenko
(FLIM)
Support:
Russian Science Foundation
Russian Academy of Sciences
Russian Foundation for Basic Research
Univ of California
San Francisco, USA
Peter Lidsky
(Drosophila imaging)
Univ of Southern California
Los Angeles, USA
Anna Krylov
(calculations)
Tallinn Univ of Technology,
Tallinn, Estonia
I Pata
P Pata
M Skolnaja
(mice imaging)