Biologically targeted probes for Zn2+: a diversity oriented modular “click-SNAr-click” approach
Biologically targeted probes for Zn2+: a diversity oriented modular “click-SNAr-click” approach
We describe a one-pot strategy for the high yielding, operationally simple synthesis of fluorescent probes for Zn2+ that bear biological targeting groups and exemplify the utility of our method through the preparation of a small library of sensors. Investigation of the fluorescence behaviour of our library revealed that although all behaved as expected in MeCN, under biologically relevant conditions in HEPES buffer, a plasma membrane targeting sensor displayed a dramatic switch on response to excess Zn2+ as a result of aggregation phenomena. Excitingly, in cellulo studies in mouse pancreatic islets demonstrated that this readily available sensor was indeed localised to the exterior of the plasma membrane and clearly responded to the Zn2+ co-released when the pancreatic beta cells were stimulated to release insulin. Conversely, sensors that target intracellular compartments were unaffected. These results demonstrate that this sensor has the potential to allow the real time study of insulin release from living cells and exemplifies the utility of our simple synthetic approach
3528-3535
Pancholi, J.
98bf6df3-cc57-4205-b0f9-7524427c80e3
Hodson, D.J.
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Jobe, K.
35181edd-6173-44ed-b247-59ff7ac57263
Rutter, G.A.
11be3ec5-b0d1-42b2-bac5-2a199ff9ecf1
Goldup, S.M.
0a93eedd-98bb-42c1-a963-e2815665e937
Watkinson, M.
207ce7bd-b73e-4b4f-955f-159d4643f671
27 June 2014
Pancholi, J.
98bf6df3-cc57-4205-b0f9-7524427c80e3
Hodson, D.J.
26eb3638-5d1e-48dd-ab92-2a1d62c59444
Jobe, K.
35181edd-6173-44ed-b247-59ff7ac57263
Rutter, G.A.
11be3ec5-b0d1-42b2-bac5-2a199ff9ecf1
Goldup, S.M.
0a93eedd-98bb-42c1-a963-e2815665e937
Watkinson, M.
207ce7bd-b73e-4b4f-955f-159d4643f671
Pancholi, J., Hodson, D.J., Jobe, K., Rutter, G.A., Goldup, S.M. and Watkinson, M.
(2014)
Biologically targeted probes for Zn2+: a diversity oriented modular “click-SNAr-click” approach.
Chemical Science, 5 (9), .
(doi:10.1039/C4SC01249F).
Abstract
We describe a one-pot strategy for the high yielding, operationally simple synthesis of fluorescent probes for Zn2+ that bear biological targeting groups and exemplify the utility of our method through the preparation of a small library of sensors. Investigation of the fluorescence behaviour of our library revealed that although all behaved as expected in MeCN, under biologically relevant conditions in HEPES buffer, a plasma membrane targeting sensor displayed a dramatic switch on response to excess Zn2+ as a result of aggregation phenomena. Excitingly, in cellulo studies in mouse pancreatic islets demonstrated that this readily available sensor was indeed localised to the exterior of the plasma membrane and clearly responded to the Zn2+ co-released when the pancreatic beta cells were stimulated to release insulin. Conversely, sensors that target intracellular compartments were unaffected. These results demonstrate that this sensor has the potential to allow the real time study of insulin release from living cells and exemplifies the utility of our simple synthetic approach
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Chemical Science - 2014 - Pancholi et al.pdf
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Published date: 27 June 2014
Organisations:
Organic Chemistry: Synthesis, Catalysis and Flow
Identifiers
Local EPrints ID: 370648
URI: http://eprints.soton.ac.uk/id/eprint/370648
ISSN: 1478-6524
PURE UUID: 7cb94b49-3394-4871-82fa-d99d5bde600e
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Date deposited: 03 Nov 2014 12:27
Last modified: 14 Mar 2024 18:19
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Contributors
Author:
J. Pancholi
Author:
D.J. Hodson
Author:
K. Jobe
Author:
G.A. Rutter
Author:
M. Watkinson
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