Frontiers in Immunology (Jan 2019)

A Dual-Color Bioluminescence Reporter Mouse for Simultaneous in vivo Imaging of T Cell Localization and Function

  • Jan Willem Kleinovink,
  • Laura Mezzanotte,
  • Laura Mezzanotte,
  • Giorgia Zambito,
  • Giorgia Zambito,
  • Giorgia Zambito,
  • Marieke F. Fransen,
  • Luis J. Cruz,
  • J. Sjef Verbeek,
  • Alan Chan,
  • Ferry Ossendorp,
  • Clemens Löwik,
  • Clemens Löwik,
  • Clemens Löwik

DOI
https://doi.org/10.3389/fimmu.2018.03097
Journal volume & issue
Vol. 9

Abstract

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Non-invasive imaging technologies to visualize the location and functionality of T cells are of great value in immunology. Here, we describe the design and generation of a transgenic mouse in which all T cells constitutively express green-emitting click-beetle luciferase (CBG99) while expression of the red-emitting firefly luciferase (PpyRE9) is induced by Nuclear Factor of Activated T cells (NFAT) such as during T cell activation, which allows multicolor bioluminescence imaging of T cell location and function. This dual-luciferase mouse, which we named TbiLuc, showed high constitutive luciferase expression in lymphoid organs such as lymph nodes and the spleen. Ex vivo purified CD8+ and CD4+ T cells both constitutively expressed luciferase, whereas B cells showed no detectable signal. We cross-bred TbiLuc mice to T cell receptor-transgenic OT-I mice to obtain luciferase-expressing naïve CD8+ T cells with defined antigen-specificity. TbiLuc*OT-I T cells showed a fully antigen-specific induction of the T cell activation-dependent luciferase. In vaccinated mice, we visualized T cell localization and activation in vaccine-draining lymph nodes with high sensitivity using two distinct luciferase substrates, D-luciferin and CycLuc1, of which the latter specifically reacts with the PpyRE9 enzyme. This dual-luciferase T cell reporter mouse can be applied in many experimental models studying the location and functional state of T cells.

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