Highly swelling pH-responsive microgels for dual mode near infra-red fluorescence reporting and imaging
Highly swelling pH-responsive microgels for dual mode near infra-red fluorescence reporting and imaging
Near infra-red fluorescent pH-responsive microgels provide two methods for remotely reporting swelling changes using photoluminescence spectroscopy and enable imaging in both cells and tissue. Here, two NIR non-radiative energy transfer (NRET) fluorophores (Cy5 and Cy5.5) are coupled to preformed pH-responsive poly(ethylacrylate-methacrylic acid-divinylbenzene) microgel particles (PEA-MAA-5/5.5 MGs) to obtain new NIR fluorescent probes that are cytocompatible and swell strongly. NIR ratiometric photoluminescence (PL) intensity analysis enables reporting of pH-triggered PEA-MAA-5/5.5 MG particle swelling ratios over a very wide range (from 1–90). The dispersions have greatly improved colloidal stability compared to a reference temperature-responsive NIR MG based on poly(N-isopropylacrylamide) (PNP-5/5.5). We also show that the wavelength of maximum PL intensity (λmax) is a second PL parameter that enables remote reporting of swelling for both PEA-MAA-5/5.5 and PNP-5/5.5 MGs. After internalization the PEA-MAA-5/5.5 MGs are successfully imaged in stem cells using NIR light. They are also imaged after subcutaneous injection into model tissue using NIR light. The new NIR PEA-MAA-5/5.5 MGs have excellent potential for reporting their swelling states (and any changes) within physiological settings as well as very high ionic strength environments (e.g., waste water).
4261-4271
Zhu, Mingning
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Lu, Dongdong
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Lian, Qing
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Wu, Shanglin
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Wang, Wenkai
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Lyon, L. Andrew
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Wang, Weiguang
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Bártolo, Paulo
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Dickinson, Mark
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Saunders, Brian R.
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14 August 2020
Zhu, Mingning
a61b3bdb-7493-4e67-add9-a0ac288a47ad
Lu, Dongdong
40c69f35-ad04-4cbe-bf02-e017a8ebbee6
Lian, Qing
4f6534a8-d6e8-4e4f-9e47-acaebeaf55e8
Wu, Shanglin
aa8d91dc-766c-4d63-802a-0379af5066ae
Wang, Wenkai
a560a761-4d85-4579-897b-4946d8473479
Lyon, L. Andrew
eed2a33a-bb93-4e48-997f-b46e638b5096
Wang, Weiguang
0cc699c0-e7b3-49d0-8c84-1e9d63f747d8
Bártolo, Paulo
ea49d95c-c41d-4bbe-9d8b-7b30dd2613d5
Dickinson, Mark
4ddd9087-0c9f-48c9-ba94-aef46a509c63
Saunders, Brian R.
1cf9d333-ec42-44f7-8d39-b76c6c8fcf19
Zhu, Mingning, Lu, Dongdong, Lian, Qing, Wu, Shanglin, Wang, Wenkai, Lyon, L. Andrew, Wang, Weiguang, Bártolo, Paulo, Dickinson, Mark and Saunders, Brian R.
(2020)
Highly swelling pH-responsive microgels for dual mode near infra-red fluorescence reporting and imaging.
Nanoscale Advances, 2, .
(doi:10.1039/d0na00581a).
Abstract
Near infra-red fluorescent pH-responsive microgels provide two methods for remotely reporting swelling changes using photoluminescence spectroscopy and enable imaging in both cells and tissue. Here, two NIR non-radiative energy transfer (NRET) fluorophores (Cy5 and Cy5.5) are coupled to preformed pH-responsive poly(ethylacrylate-methacrylic acid-divinylbenzene) microgel particles (PEA-MAA-5/5.5 MGs) to obtain new NIR fluorescent probes that are cytocompatible and swell strongly. NIR ratiometric photoluminescence (PL) intensity analysis enables reporting of pH-triggered PEA-MAA-5/5.5 MG particle swelling ratios over a very wide range (from 1–90). The dispersions have greatly improved colloidal stability compared to a reference temperature-responsive NIR MG based on poly(N-isopropylacrylamide) (PNP-5/5.5). We also show that the wavelength of maximum PL intensity (λmax) is a second PL parameter that enables remote reporting of swelling for both PEA-MAA-5/5.5 and PNP-5/5.5 MGs. After internalization the PEA-MAA-5/5.5 MGs are successfully imaged in stem cells using NIR light. They are also imaged after subcutaneous injection into model tissue using NIR light. The new NIR PEA-MAA-5/5.5 MGs have excellent potential for reporting their swelling states (and any changes) within physiological settings as well as very high ionic strength environments (e.g., waste water).
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HighlySwellingPHResponsiveMicrogelsForDualMode_VOR
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Accepted/In Press date: 12 August 2020
Published date: 14 August 2020
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Local EPrints ID: 502274
URI: http://eprints.soton.ac.uk/id/eprint/502274
ISSN: 2516-0230
PURE UUID: 6ede9714-f027-4b1b-9fbd-0ece393f5b99
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Date deposited: 19 Jun 2025 17:00
Last modified: 22 Aug 2025 02:46
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Contributors
Author:
Mingning Zhu
Author:
Dongdong Lu
Author:
Qing Lian
Author:
Shanglin Wu
Author:
Wenkai Wang
Author:
L. Andrew Lyon
Author:
Weiguang Wang
Author:
Paulo Bártolo
Author:
Mark Dickinson
Author:
Brian R. Saunders
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