Intravital FRET: Probing Cellular and Tissue Function in Vivo

Helena Radbruch; Daniel Bremer; Ronja Mothes; Robert Günther; Jan Leo Rinnenthal; Julian Pohlan; Carolin Ulbricht; Anja E Hauser; Raluca Niesner

doi:10.3390/ijms160511713

Intravital FRET: Probing Cellular and Tissue Function in Vivo

Int J Mol Sci. 2015 May 21;16(5):11713-27. doi: 10.3390/ijms160511713.

Authors

Helena Radbruch¹, Daniel Bremer², Ronja Mothes^{3

4}, Robert Günther⁵, Jan Leo Rinnenthal⁶, Julian Pohlan^{7

8}, Carolin Ulbricht^{9

10}, Anja E Hauser^{11

12}, Raluca Niesner¹³

Affiliations

¹ Neuropathology, Charité-University of Medicine, Berlin 10117, Germany. Helena.radbruch@charite.de.
² Germany German Rheumatism Research Center, Berlin 10117, Germany. daniel.bremer@drfz.de.
³ Neuropathology, Charité-University of Medicine, Berlin 10117, Germany. ronja.mothes@charite.de.
⁴ Germany German Rheumatism Research Center, Berlin 10117, Germany. ronja.mothes@charite.de.
⁵ Germany German Rheumatism Research Center, Berlin 10117, Germany. r.guenther@drfz.de.
⁶ Neuropathology, Charité-University of Medicine, Berlin 10117, Germany. jan-leo.rinnenthal@charite.de.
⁷ Neuropathology, Charité-University of Medicine, Berlin 10117, Germany. Julian.pohlan@charite.de.
⁸ Germany German Rheumatism Research Center, Berlin 10117, Germany. Julian.pohlan@charite.de.
⁹ Germany German Rheumatism Research Center, Berlin 10117, Germany. carolin.ulbricht@drfz.de.
¹⁰ Immundynamics and Intravital Microscopy, Charité-University of Medicine, Berlin 10117, Germany. carolin.ulbricht@drfz.de.
¹¹ Germany German Rheumatism Research Center, Berlin 10117, Germany. hauser@drfz.de.
¹² Immundynamics and Intravital Microscopy, Charité-University of Medicine, Berlin 10117, Germany. hauser@drfz.de.
¹³ Germany German Rheumatism Research Center, Berlin 10117, Germany. niesner@drfz.de.

Abstract

The development of intravital Förster Resonance Energy Transfer (FRET) is required to probe cellular and tissue function in the natural context: the living organism. Only in this way can biomedicine truly comprehend pathogenesis and develop effective therapeutic strategies. Here we demonstrate and discuss the advantages and pitfalls of two strategies to quantify FRET in vivo-ratiometrically and time-resolved by fluorescence lifetime imaging-and show their concrete application in the context of neuroinflammation in adult mice.

Keywords: fluorescence lifetime imaging; genetically encoded calcium indicators; intravital FRET; multi-photon microscopy.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Brain Stem / pathology*
Calcium / analysis*
Encephalomyelitis, Autoimmune, Experimental / pathology*
Fluorescence Resonance Energy Transfer / methods*
Intravital Microscopy / methods*
Mice
Optical Imaging / methods*

Substances

Calcium