Regulatory T cell transfer ameliorates lymphedema and promotes lymphatic vessel function
Epameinondas Gousopoulos, Steven T. Proulx, Samia B. Bachmann, Jeannette Scholl, Dimitris Dionyssiou, Efterpi Demiri, Cornelia Halin, Lothar C. Dieterich, Michael Detmar
Epameinondas Gousopoulos, Steven T. Proulx, Samia B. Bachmann, Jeannette Scholl, Dimitris Dionyssiou, Efterpi Demiri, Cornelia Halin, Lothar C. Dieterich, Michael Detmar
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Research Article Dermatology Vascular biology

Regulatory T cell transfer ameliorates lymphedema and promotes lymphatic vessel function

Abstract

Secondary lymphedema is a common postcancer treatment complication, but the underlying pathological processes are poorly understood and no curative treatment exists. To investigate lymphedema pathomechanisms, a top-down approach was applied, using genomic data and validating the role of a single target. RNA sequencing of lymphedematous mouse skin indicated upregulation of many T cell–related networks, and indeed depletion of CD4+ cells attenuated lymphedema. The significant upregulation of Foxp3, a transcription factor specifically expressed by regulatory T cells (Tregs), along with other Treg-related genes, implied a potential role of Tregs in lymphedema. Indeed, increased infiltration of Tregs was identified in mouse lymphedematous skin and in human lymphedema specimens. To investigate the role of Tregs during disease progression, loss-of-function and gain-of-function studies were performed. Depletion of Tregs in transgenic mice with Tregs expressing the primate diphtheria toxin receptor and green fluorescent protein (Foxp3-DTR-GFP) mice led to exacerbated edema, concomitant with increased infiltration of immune cells and a mixed TH1/TH2 cytokine profile. Conversely, expansion of Tregs using IL-2/anti–IL-2 mAb complexes significantly reduced lymphedema development. Therapeutic application of adoptively transferred Tregs upon lymphedema establishment reversed all of the major hallmarks of lymphedema, including edema, inflammation, and fibrosis, and also promoted lymphatic drainage function. Collectively, our results reveal that Treg application constitutes a potential new curative treatment modality for lymphedema.

Authors

Epameinondas Gousopoulos, Steven T. Proulx, Samia B. Bachmann, Jeannette Scholl, Dimitris Dionyssiou, Efterpi Demiri, Cornelia Halin, Lothar C. Dieterich, Michael Detmar

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Figure 3

Increased Treg infiltrate in lymphedematous skin in mice and patients.

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Increased Treg infiltrate in lymphedematous skin in mice and patients. (...
(A) Heat map illustrating upregulation of Treg-associated genes in lymphedematous tissue. The color scale represents log2-fold count changes compared with the mean (indicated as 1:1). (B) Representative immunofluorescence images revealing an increased Treg infiltrate in the lymphedematous skin during lymphedema development 2 and 6 weeks after surgery, in comparison with control unoperated (un-op) mice. Scale bar: 200 μm. (C) Representative FACS plots of Treg infiltrates in the lymphedematous skin 2 weeks after surgery. Cells were pregated as CD45+CD3+CD4+. (D) Quantification of Tregs by FACS, showing an increased Treg percentage both among all single cells and among CD4+ T cells. (E) Evaluation of Tregs in mouse blood shows an increase in circulating Tregs 1 week after surgery. No changes in Tregs were observed in the spleen (n = 5 per group). (F and G) Immunohistochemical staining of patient biopsies from control (Ctrl) and lymphedematous skin (LE) for CD45+ cells indicates a significant increase in inflammatory cells in lymphedema (n = 5 per group). Scale bar: 100 μm. (H and I) Histopathological evaluation of Tregs (arrows) in human lymphedematous skin (LE) indicates an increase in comparison with nonaffected skin (Ctrl) (n = 5 per group). Scale bar: 50 μm. Statistical analysis was done with 1-way ANOVA with Tukey’s post-hoc multiple comparison test (E) or Student’s t test (D, G, and I), *P < 0.05, ***P < 0.001. Each experiment was carried out at least twice.