posted on 2016-04-26, 13:31authored byRomain Bertrand, Andrea Wolf, Yuri Ivashchenko, Matthias Löhn, Matthias Schäfer, Mark Brönstrup, Martin Gotthardt, Volker Derdau, Oliver Plettenburg
Diabetes affects an increasing number
of patients worldwide and
is responsible for a significant rise in healthcare expenses. Imaging
of β-cells bears the potential to contribute to an improved
understanding, diagnosis, and development of new treatment options
for diabetes. Here, we describe the first small molecule fluorescent
probe targeting the free fatty acid receptor 1 (FFAR1/GPR40). This
receptor is highly expressed on β-cells, and was up to now unexplored
for imaging purposes. We designed a novel probe by facile modification
of the selective and potent FFAR1 agonist TAK-875. Effective and specific
binding of the probe was demonstrated using FFAR1 overexpressing cells.
We also successfully labeled FFAR1 on MIN6 and INS1E cells, two widely
used β-cell models, by applying an effective amplification protocol.
Finally, we showed that the probe is capable of inducing insulin secretion
in a glucose-dependent manner, thus demonstrating that functional
activity of the probe was maintained. These results suggest that our
probe represents a first important step to successful β-cell
imaging by targeting FFAR1. The developed probe may prove to be particularly
useful for in vitro and ex vivo studies
of diabetic cellular and animal models to gain new insights into disease
pathogenesis.