The detection of externalized phosphatidylserine (PS) on the cell surface is commonly used to distinguish between living, apoptotic, and necrotic cells. The tools of choice for many researchers to study apoptosis are annexin V-fluorophore conjugates. However, the use of this 35 kDa protein is associated with several drawbacks, including temperature sensitivity, Ca2+ dependence, and slow binding kinetics. Herein, a fluorogenic probe for cell surface PS, P-IID, is described, which operates by an intramolecular indicator displacement (IID) mechanism. An intramolecularly bound coumarin indicator is released in the presence of cell surface PS, leading to a fluorescence "turn-on" response. P-IID demonstrates superior performance when compared to annexin V, for both fluorescence imaging and flow cytometry. This allows P-IID to be used in time-lapse imaging of apoptosis using confocal laser scanning microscopy and demonstrates the utility of the IID mechanism in live cells

Bernardes, GJL

Fraser, ST

Jolliffe, KA

New, EJ

Oliveira, BL

Yeo, JH

Zwicker, VE

Angewandte Chemie International Edition

English

The detection of externalized phosphatidylserine (PS) on the cell surface is commonly used to distinguish between living, apoptotic, and necrotic cells. The tools of choice for many researchers to study apoptosis are annexin V‐fluorophore conjugates. However, the use of this 35 kDa protein is associated with several drawbacks, including temperature sensitivity, Ca2+ dependence, and slow binding kinetics. Herein, a fluorogenic probe for cell surface PS, P‐IID, is described, which operates by an intramolecular indicator displacement (IID) mechanism. An intramolecularly bound coumarin indicator is released in the presence of cell surface PS, leading to a fluorescence “turn‐on” response. P‐IID demonstrates superior performance when compared to annexin V, for both fluorescence imaging and flow cytometry. This allows P‐IID to be used in time‐lapse imaging of apoptosis using confocal laser scanning microscopy and demonstrates the utility of the IID mechanism in live cells

CUED - Cambridge University Engineering Department

A Fluorogenic Probe for Cell Surface Phosphatidylserine Using an Intramolecular Indicator Displacement Sensing Mechanism

Zwicker, Vincent E.

Olivera, Bruno L.

Yeo, Jia Hao

Fraser, Stuart T.

New, Elizabeth J.

Bernardes, Goncalo J. L.

Jolliffe, Katrina A.

Sydney eScholarship

A fluorogenic probe for cell surface phosphatidylserine using an intramolecular indicator displacement sensing mechanism

The detection of externalized phosphatidylserine (PS) on the cell surface is commonly used to distinguish between living, apoptotic, and necrotic cells. The tools of choice for many researchers to study apoptosis are annexin V-fluorophore conjugates. However, the use of this 35 kDa protein is associated with several drawbacks, including temperature sensitivity, Ca 2+ dependence, and slow binding kinetics. Herein, a fluorogenic probe for cell surface PS, P-IID, is described, which operates by an intramolecular indicator displacement (IID) mechanism. An intramolecularly bound coumarin indicator is released in the presence of cell surface PS, leading to a fluorescence “turn-on” response. P-IID demonstrates superior performance when compared to annexin V, for both fluorescence imaging and flow cytometry. This allows P-IID to be used in time-lapse imaging of apoptosis using confocal laser scanning microscopy and demonstrates the utility of the IID mechanism in live cells

Demchenko A. P.

Rieger A. M.

Crossref

Zwicker, Vincent E

Oliveira, Bruno L

Fraser, Stuart T

Bernardes, Gonçalo JL

New, Elizabeth J

Jolliffe, Katrina A

Apollo (Cambridge)

A Fluorogenic Probe for Cell Surface Phosphatidylserine Using an Intramolecular Indicator Displacement Sensing Mechanism.

© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, WeinheimThe detection of externalized phosphatidylserine (PS) on the cell surface is commonly used to distinguish between living, apoptotic, and necrotic cells. The tools of choice for many researchers to study apoptosis are annexin V-fluorophore conjugates. However, the use of this 35 kDa protein is associated with several drawbacks, including temperature sensitivity, Ca2+ dependence, and slow binding kinetics. Herein, a fluorogenic probe for cell surface PS, P-IID, is described, which operates by an intramolecular indicator displacement (IID) mechanism. An intramolecularly bound coumarin indicator is released in the presence of cell surface PS, leading to a fluorescence "turn-on" response. P-IID demonstrates superior performance when compared to annexin V, for both fluorescence imaging and flow cytometry. This allows P-IID to be used in time-lapse imaging of apoptosis using confocal laser scanning microscopy and demonstrates the utility of the IID mechanism in live cells.We thank the Australian Research Council (DP140100227 to K.A.J., and DP180101353 to K.A.J. and E.J.N.); the University of Sydney (IPRS and John A. Lamberton scholarships to V.E.Z.; P rof. N .G.W. and Mrs. Ann Macintosh Memorial scholarship to J.H.Y.; NWG Macintosh Grant 2018 to S.T.F.); the Royal Society (URF to G.J.L.B., UF110046 and URF\R\180019), FCT Portugal (iFCT to G.J.L.B., IF/00624/2015), ERC StG (GA No. 676832), the European Commission (Marie Sklodowska-Curie ITN ProteinConjugates GA No. 675007 to G.J.L.B. and Marie Sklodowska-Curie IEF GA No. 702574 to B.L.O.) and the EPSRC (EP/M003647/1 to G.J.L.B.) for funding. We also acknowledge the Australian Centre for Microscopy & Microanalysis (ACMM) and the Bosch Live Cell Analysis Facility (LCAF) for access to facilitiesinfo:eu-repo/semantics/publishedVersio

Oliveira, Bruno

Bernardes, Gonçalo J. L.

Universidade de Lisboa: Repositório.UL

https://www.repository.cam.ac.uk/bitstream/1810/294649/3/apoptosis_manuscript.pdf

A Fluorogenic Probe for Cell Surface Phosphatidylserine Using an Intramolecular Indicator Displacement Sensing Mechanism.

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CUED - Cambridge University Engineering Department

Sydney eScholarship

CUED - Cambridge University Engineering Department

Crossref

Apollo (Cambridge)

Universidade de Lisboa: Repositório.UL

Crossref