A CD28 superagonistic antibody elicits 2 functionally distinct waves of T cell activation in rats
Nora Müller, … , Alexander Flügel, Holger M. Reichardt
Nora Müller, … , Alexander Flügel, Holger M. Reichardt
Published March 20, 2008
Citation Information: J Clin Invest. 2008;118(4):1405-1416. https://doi.org/10.1172/JCI32698.
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Research Article

A CD28 superagonistic antibody elicits 2 functionally distinct waves of T cell activation in rats

Abstract

Administration of the CD28 superagonistic antibody JJ316 is an efficient means to treat autoimmune diseases in rats, but the humanized antibody TGN1412 caused devastating side effects in healthy volunteers during a clinical trial. Here we show that JJ316 treatment of rats induced a dramatic redistribution of T lymphocytes from the periphery to the secondary lymphoid organs, resulting in severe T lymphopenia. Live imaging of secondary lymphoid organs revealed that JJ316 administration almost instantaneously (<2 minutes) arrested T cells in situ. This reduction in T cell motility was accompanied by profound cytoskeletal rearrangements and increased cell size. In addition, surface expression of lymphocyte function–associated antigen-1 was enhanced, endothelial differentiation sphingolipid G protein–coupled receptor 1 and L selectin levels were downregulated, and the cells lost their responsiveness to sphingosine 1–phosphate–directed migration. These proadhesive alterations were accompanied by signs of strong activation, including upregulation of CD25, CD69, CD134, and proinflammatory mediators. However, this did not lead to a cytokine storm similar to the clinical trial. While most of the early changes disappeared within 48 hours, we observed that CD4+CD25+FoxP3+ regulatory T cells experienced a second phase of activation, which resulted in massive cell enlargement, extensive polarization, and increased motility. These data suggest that CD28 superagonists elicit 2 qualitatively distinct waves of activation.

Authors

Nora Müller, Jens van den Brandt, Francesca Odoardi, Denise Tischner, Judith Herath, Alexander Flügel, Holger M. Reichardt

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Figure 2

Visualization of T cell arrest following JJ316 injection in vivo by intravital microscopy of living rats.

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Visualization of T cell arrest following JJ316 injection in vivo by intr...
(A) Fluorescently labeled T cell populations were adoptively transferred into rats followed by video microscopy of the spleen after 60 hours. Superimposed trajectories of 180 naive T cells, 187 TMBP-GFP cells, and 185 TOVA-GFP cells are displayed and recorded over a 10-minute period at the indicated time points after JJ316 treatment. The sum of x,y trajectory vectors was calculated from the sum of all cell trajectories divided by the cell number. (B) The average speed of naive T cells, TMBP-GFP cells, and TOVA-GFP cells in the spleen was determined within 10 minutes before and after (gray background) JJ316 or PBS treatment. T cell line and 180 cells per time interval were included in the analysis of a total of 10.080 time points. Each value represents an interval of 1 minute. Means of 3 independent videos are shown. (C and D) Average speed (C) and percentage of stationary cells (D) of naive T cells, TMBP-GFP cells, and TOVA-GFP cells after treatment with JJ316 or PBS. Video microscopy was performed at 30 second intervals, and each point represents a time interval of 10 minutes. Values represent means of 2 independent videos per treatment and T cell line comprising at least 240 T cells each. A total of 131.040 time points were analyzed. Cells were defined as stationary if they migrated less than 10 μm in 10 minutes. Statistical significance was individually determined by Student’s t test. ***P < 0.001.