Scientific Reports (May 2017)

Development of an inducible mouse model of iRFP713 to track recombinase activity and tumour development in vivo

  • Andreas K. Hock,
  • Eric C. Cheung,
  • Timothy J. Humpton,
  • Tiziana Monteverde,
  • Viola Paulus-Hock,
  • Pearl Lee,
  • Ewan McGhee,
  • Alessandro Scopelliti,
  • Daniel J. Murphy,
  • Douglas Strathdee,
  • Karen Blyth,
  • Karen H. Vousden

DOI
https://doi.org/10.1038/s41598-017-01741-0
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 9

Abstract

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Abstract While the use of bioluminescent proteins for molecular imaging is a powerful technology to further our understanding of complex processes, fluorescent labeling with visible light fluorescent proteins such as GFP and RFP suffers from poor tissue penetration and high background autofluorescence. To overcome these limitations, we generated an inducible knock-in mouse model of iRFP713. This model was used to assess Cre activity in a Rosa Cre–ER background and quantify Cre activity upon different tamoxifen treatments in several organs. We also show that iRFP can be readily detected in 3D organoid cultures, FACS analysis and in vivo tumour models. Taken together we demonstrate that iRFP713 is a progressive step in in vivo imaging and analysis that widens the optical imaging window to the near-infrared spectrum, thereby allowing deeper tissue penetration, quicker image acquisition without the need to inject substrates and a better signal to background ratio in genetically engineered mouse models (GEMMs).