2-photon imaging of phagocyte-mediated T cell activation in the CNS
Marija Pesic, Ingo Bartholomäus, Nikolaos I. Kyratsous, Vigo Heissmeyer, Hartmut Wekerle, Naoto Kawakami
Marija Pesic, Ingo Bartholomäus, Nikolaos I. Kyratsous, Vigo Heissmeyer, Hartmut Wekerle, Naoto Kawakami
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Technical Advance Immunology

2-photon imaging of phagocyte-mediated T cell activation in the CNS

Abstract

Autoreactive T cells can infiltrate the CNS to cause disorders such as multiple sclerosis. In order to visualize T cell activation in the CNS, we introduced a truncated fluorescent derivative of nuclear factor of activated T cells (NFAT) as a real-time T cell activation indicator. In experimental autoimmune encephalomyelitis, a rat model of multiple sclerosis, we tracked T cells interacting with structures of the vascular blood-brain barrier (BBB). 2-photon imaging documented the cytoplasmic-nuclear translocation of fluorescent NFAT, indicative of calcium-dependent activation of the T cells in the perivascular space, but not within the vascular lumen. The activation was related to contacts with the local antigen-presenting phagocytes and was noted only in T cells with a high pathogenic potential. T cell activation implied the presentation of an autoantigen, as the weakly pathogenic T cells, which remained silent in the untreated hosts, were activated upon instillation of exogenous autoantigen. Activation did not cogently signal long-lasting arrest, as individual T cells were able to sequentially contact fresh APCs. We propose that the presentation of local autoantigen by BBB-associated APCs provides stimuli that guide autoimmune T cells to the CNS destination, enabling them to attack the target tissue.

Authors

Marija Pesic, Ingo Bartholomäus, Nikolaos I. Kyratsous, Vigo Heissmeyer, Hartmut Wekerle, Naoto Kawakami

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Figure 5

T cell interaction with local APCs.

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T cell interaction with local APCs. (A) 2 SNARF-labeled (red) TMBP-NFAT-...
(A) 2 SNARF-labeled (red) TMBP-NFAT-GFP cells were successively activated (nuclear translocation of ΔNFAT-GFP; green) after contact with the same APC (cyan). Speculated outlines are shown by dotted lines. From Supplemental Video 8. Relative time after start of acquisition is indicated. Closed arrowheads denote T cell/APC interaction; T cells of interest (open arrowheads) are shown in the insets (green and red channels only). Scale bars: 10 μm. (B) Duration of T cell/APC contacts by cells with different ΔNFAT-GFP locations and of contact leading to cytoplasmic-nuclear ΔNFAT-GFP translocation. (C) Time required for cytoplasmic-nuclear ΔNFAT-GFP translocation, starting at the beginning of the T cell/APC contact, compared with the total duration of the same contact. Each color represents the same contact. (D) Time required for nuclear-cytoplasmic ΔNFAT-GFP translocation. Each symbol represents a single cell. (E) SNARF-labeled (red) TMBP-NFAT-GFP (green) cell undergoing nuclear-cytoplasmic ΔNFAT-GFP translocation after detachment from a local APC (cyan). From Supplemental Video 9. Relative time after start of acquisition is indicated. Closed arrowheads denote T cell/APC interaction; T cells of interest (open arrowheads) are shown in the insets (green and red channels only). Scale bars: 10 μm. Results in BD are the sum of 3 independent experiments per cell line. ***P < 0.001, 1-way ANOVA followed by Kruskal-Wallis/Dunn multiple-comparison test.