Triazole-derivatized near-infrared cyanine dyes enable local functional fluorescent imaging of ocular inflammation

Chloe Thomas; Nada Alfahad; Nicholas Capewell; Jamie Cowley; Eleanor Hickman; Antonio Fernandez; Neale Harrison; Omar Qureshi; Naomi Bennett; Nicholas Barnes; Andrew Dick; Colin Chu; Xiaoxuan Liu; Alastair Denniston; Marc Vendrell; Lisa J Hill

doi:10.1016/j.bios.2022.114623

Triazole-derivatized near-infrared cyanine dyes enable local functional fluorescent imaging of ocular inflammation

Chloe Thomas^*, Nada Alfahad, Nicholas Capewell, Jamie Cowley, Eleanor Hickman, Antonio Fernandez, Neale Harrison, Omar Qureshi, Naomi Bennett, Nicholas Barnes, Andrew Dick, Colin Chu, Xiaoxuan Liu, Alastair Denniston, Marc Vendrell, Lisa J Hill^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

53 Downloads (Pure)

Abstract

Near-infrared (NIR) chemical fluorophores are promising tools for in-vivo imaging in real time but often succumb to rapid photodegradation. Indocyanine green (ICG) is the only NIR dye with regulatory approval for ocular imaging in humans; however, ICG, when employed for applications such as labelling immune cells, has limited sensitivity and does not allow precise detection of specific inflammatory events, for example leukocyte recruitment during uveitic flare-ups. We investigated the potential use of photostable novel triazole NIR cyanine (TNC) dyes for detecting and characterising activated T-cell activity within the eye. Three TNC dyes were evaluated for ocular cytotoxicity in-vitro using a MTT assay and optimised concentrations for intraocular detection within ex-vivo porcine eyes after topical application or intracameral injections of the dyes. TNC labelled T-cell tracking experiments and mechanistic studies were also performed in-vitro. TNC-1 and TNC-2 dyes exhibited greater fluorescence intensity than ICG at 10 μM, whereas TNC-3 was only detectable at 100 μM within the porcine eye. TNC dyes did not demonstrate any ocular cell toxicity at working concentrations of 10 μM. CD4 ⁺T-cells labelled with TNC-1 or TNC-2 were detected within the porcine eye, with TNC-1 being brighter than TNC-2. Detection of TNC-1 and TNC-2 into CD4 ⁺T-cells was prevented by prior incubation with dynole 34–2 (50 μM), suggesting active uptake of these dyes via dynamin-dependent processes. The present study provides evidence that TNC dyes are suitable to detect activated CD4 ⁺T-cells within the eye with potential as a diagnostic marker for ocular inflammatory diseases.

Original language	English
Article number	114623
Number of pages	11
Journal	Biosensors and Bioelectronics
Volume	216
Early online date	13 Aug 2022
DOIs	https://doi.org/10.1016/j.bios.2022.114623
Publication status	Published - 15 Nov 2022

Bibliographical note

Funding Information:
Chloe N Thomas and Lisa J Hill acknowledge funding from a Research Development Fund from the College of Medical and Dental Sciences at University of Birmingham . Antonio Fernandez acknowledges funding from Fundación Seneca for a Saavedra Fajardo Grant ( 21124/SF/19 ). Marc Vendrell acknowledges funding from an ERC Consolidator Grant (DYNAFLUORS, 771443 ).

Publisher Copyright:
© 2022 The Authors

Keywords

Near-infrared
Fluorophores
Cyanine
Uveitis
Optical coherence tomography
Leukocytes

Access to Document

10.1016/j.bios.2022.114623Licence: Creative Commons: Attribution (CC BY)

ThomasC2022TriazoleFinal published version, 8.76 MBLicence: Creative Commons: Attribution (CC BY)

Cite this

Thomas, C., Alfahad, N., Capewell, N., Cowley, J., Hickman, E., Fernandez, A., Harrison, N., Qureshi, O., Bennett, N., Barnes, N., Dick, A., Chu, C., Liu, X., Denniston, A., Vendrell, M., & Hill, L. J. (2022). Triazole-derivatized near-infrared cyanine dyes enable local functional fluorescent imaging of ocular inflammation. Biosensors and Bioelectronics , 216, Article 114623. https://doi.org/10.1016/j.bios.2022.114623

@article{8096af1077da4a949c2b9bed16155318,

title = "Triazole-derivatized near-infrared cyanine dyes enable local functional fluorescent imaging of ocular inflammation",

abstract = "Near-infrared (NIR) chemical fluorophores are promising tools for in-vivo imaging in real time but often succumb to rapid photodegradation. Indocyanine green (ICG) is the only NIR dye with regulatory approval for ocular imaging in humans; however, ICG, when employed for applications such as labelling immune cells, has limited sensitivity and does not allow precise detection of specific inflammatory events, for example leukocyte recruitment during uveitic flare-ups. We investigated the potential use of photostable novel triazole NIR cyanine (TNC) dyes for detecting and characterising activated T-cell activity within the eye. Three TNC dyes were evaluated for ocular cytotoxicity in-vitro using a MTT assay and optimised concentrations for intraocular detection within ex-vivo porcine eyes after topical application or intracameral injections of the dyes. TNC labelled T-cell tracking experiments and mechanistic studies were also performed in-vitro. TNC-1 and TNC-2 dyes exhibited greater fluorescence intensity than ICG at 10 μM, whereas TNC-3 was only detectable at 100 μM within the porcine eye. TNC dyes did not demonstrate any ocular cell toxicity at working concentrations of 10 μM. CD4 +T-cells labelled with TNC-1 or TNC-2 were detected within the porcine eye, with TNC-1 being brighter than TNC-2. Detection of TNC-1 and TNC-2 into CD4 +T-cells was prevented by prior incubation with dynole 34–2 (50 μM), suggesting active uptake of these dyes via dynamin-dependent processes. The present study provides evidence that TNC dyes are suitable to detect activated CD4 +T-cells within the eye with potential as a diagnostic marker for ocular inflammatory diseases.",

keywords = "Near-infrared, Fluorophores, Cyanine, Uveitis, Optical coherence tomography, Leukocytes",

author = "Chloe Thomas and Nada Alfahad and Nicholas Capewell and Jamie Cowley and Eleanor Hickman and Antonio Fernandez and Neale Harrison and Omar Qureshi and Naomi Bennett and Nicholas Barnes and Andrew Dick and Colin Chu and Xiaoxuan Liu and Alastair Denniston and Marc Vendrell and Hill, {Lisa J}",

note = "Funding Information: Chloe N Thomas and Lisa J Hill acknowledge funding from a Research Development Fund from the College of Medical and Dental Sciences at University of Birmingham . Antonio Fernandez acknowledges funding from Fundaci{\'o}n Seneca for a Saavedra Fajardo Grant ( 21124/SF/19 ). Marc Vendrell acknowledges funding from an ERC Consolidator Grant (DYNAFLUORS, 771443 ). Publisher Copyright: {\textcopyright} 2022 The Authors",

year = "2022",

month = nov,

day = "15",

doi = "10.1016/j.bios.2022.114623",

language = "English",

volume = "216",

journal = "Biosensors and Bioelectronics ",

issn = "0956-5663",

publisher = "Elsevier",

}

Thomas, C, Alfahad, N, Capewell, N, Cowley, J, Hickman, E, Fernandez, A, Harrison, N, Qureshi, O, Bennett, N, Barnes, N, Dick, A, Chu, C, Liu, X , Denniston, A, Vendrell, M & Hill, LJ 2022, 'Triazole-derivatized near-infrared cyanine dyes enable local functional fluorescent imaging of ocular inflammation', Biosensors and Bioelectronics , vol. 216, 114623. https://doi.org/10.1016/j.bios.2022.114623

TY - JOUR

T1 - Triazole-derivatized near-infrared cyanine dyes enable local functional fluorescent imaging of ocular inflammation

AU - Thomas, Chloe

AU - Alfahad, Nada

AU - Capewell, Nicholas

AU - Cowley, Jamie

AU - Hickman, Eleanor

AU - Fernandez, Antonio

AU - Harrison, Neale

AU - Qureshi, Omar

AU - Bennett, Naomi

AU - Barnes, Nicholas

AU - Dick, Andrew

AU - Chu, Colin

AU - Liu, Xiaoxuan

AU - Denniston, Alastair

AU - Vendrell, Marc

AU - Hill, Lisa J

N1 - Funding Information: Chloe N Thomas and Lisa J Hill acknowledge funding from a Research Development Fund from the College of Medical and Dental Sciences at University of Birmingham . Antonio Fernandez acknowledges funding from Fundación Seneca for a Saavedra Fajardo Grant ( 21124/SF/19 ). Marc Vendrell acknowledges funding from an ERC Consolidator Grant (DYNAFLUORS, 771443 ). Publisher Copyright: © 2022 The Authors

PY - 2022/11/15

Y1 - 2022/11/15

N2 - Near-infrared (NIR) chemical fluorophores are promising tools for in-vivo imaging in real time but often succumb to rapid photodegradation. Indocyanine green (ICG) is the only NIR dye with regulatory approval for ocular imaging in humans; however, ICG, when employed for applications such as labelling immune cells, has limited sensitivity and does not allow precise detection of specific inflammatory events, for example leukocyte recruitment during uveitic flare-ups. We investigated the potential use of photostable novel triazole NIR cyanine (TNC) dyes for detecting and characterising activated T-cell activity within the eye. Three TNC dyes were evaluated for ocular cytotoxicity in-vitro using a MTT assay and optimised concentrations for intraocular detection within ex-vivo porcine eyes after topical application or intracameral injections of the dyes. TNC labelled T-cell tracking experiments and mechanistic studies were also performed in-vitro. TNC-1 and TNC-2 dyes exhibited greater fluorescence intensity than ICG at 10 μM, whereas TNC-3 was only detectable at 100 μM within the porcine eye. TNC dyes did not demonstrate any ocular cell toxicity at working concentrations of 10 μM. CD4 +T-cells labelled with TNC-1 or TNC-2 were detected within the porcine eye, with TNC-1 being brighter than TNC-2. Detection of TNC-1 and TNC-2 into CD4 +T-cells was prevented by prior incubation with dynole 34–2 (50 μM), suggesting active uptake of these dyes via dynamin-dependent processes. The present study provides evidence that TNC dyes are suitable to detect activated CD4 +T-cells within the eye with potential as a diagnostic marker for ocular inflammatory diseases.

AB - Near-infrared (NIR) chemical fluorophores are promising tools for in-vivo imaging in real time but often succumb to rapid photodegradation. Indocyanine green (ICG) is the only NIR dye with regulatory approval for ocular imaging in humans; however, ICG, when employed for applications such as labelling immune cells, has limited sensitivity and does not allow precise detection of specific inflammatory events, for example leukocyte recruitment during uveitic flare-ups. We investigated the potential use of photostable novel triazole NIR cyanine (TNC) dyes for detecting and characterising activated T-cell activity within the eye. Three TNC dyes were evaluated for ocular cytotoxicity in-vitro using a MTT assay and optimised concentrations for intraocular detection within ex-vivo porcine eyes after topical application or intracameral injections of the dyes. TNC labelled T-cell tracking experiments and mechanistic studies were also performed in-vitro. TNC-1 and TNC-2 dyes exhibited greater fluorescence intensity than ICG at 10 μM, whereas TNC-3 was only detectable at 100 μM within the porcine eye. TNC dyes did not demonstrate any ocular cell toxicity at working concentrations of 10 μM. CD4 +T-cells labelled with TNC-1 or TNC-2 were detected within the porcine eye, with TNC-1 being brighter than TNC-2. Detection of TNC-1 and TNC-2 into CD4 +T-cells was prevented by prior incubation with dynole 34–2 (50 μM), suggesting active uptake of these dyes via dynamin-dependent processes. The present study provides evidence that TNC dyes are suitable to detect activated CD4 +T-cells within the eye with potential as a diagnostic marker for ocular inflammatory diseases.

KW - Near-infrared

KW - Fluorophores

KW - Cyanine

KW - Uveitis

KW - Optical coherence tomography

KW - Leukocytes

U2 - 10.1016/j.bios.2022.114623

DO - 10.1016/j.bios.2022.114623

M3 - Article

C2 - 36029662

SN - 0956-5663

VL - 216

JO - Biosensors and Bioelectronics

JF - Biosensors and Bioelectronics

M1 - 114623

ER -

Triazole-derivatized near-infrared cyanine dyes enable local functional fluorescent imaging of ocular inflammation

Abstract

Bibliographical note

Keywords

Access to Document

Fingerprint

Cite this