Fragile TIM-4–expressing tissue resident macrophages are migratory and immunoregulatory
Thomas B. Thornley, … , Vijay K. Kuchroo, Terry B. Strom
Thomas B. Thornley, … , Vijay K. Kuchroo, Terry B. Strom
Published July 1, 2014
Citation Information: J Clin Invest. 2014;124(8):3443-3454. https://doi.org/10.1172/JCI73527.
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Research Article Immunology

Fragile TIM-4–expressing tissue resident macrophages are migratory and immunoregulatory

Abstract

Macrophages characterized as M2 and M2-like regulate immune responses associated with immune suppression and healing; however, the relationship of this macrophage subset to CD169+ tissue-resident macrophages and their contribution to shaping alloimmune responses is unknown. Here we identified a population of M2-like tissue-resident macrophages that express high levels of the phosphatidylserine receptor TIM-4 and CD169 (TIM-4hiCD169+). Labeling and tracking of TIM-4hiCD169+ macrophages in mice revealed that this population is a major subset of tissue-resident macrophages, homes to draining LNs following oxidative stress, exhibits an immunoregulatory and hypostimulatory phenotype that is maintained after migration to secondary lymphoid organs, favors preferential induction of antigen-stimulated Tregs, and is highly susceptible to apoptosis. Moreover, CD169+ tissue-resident macrophages were resistant to oxidative stress–induced apoptosis in mice lacking TIM-4. Compared with heart allografts from WT mice, Tim4–/– heart allografts survived much longer and were more easily tolerized by non-immunosuppressed recipients. Furthermore, Tim4–/– allograft survival was associated with the infiltration of Tregs into the graft. Together, our data provide evidence that M2-like TIM-4hiCD169+ tissue-resident macrophages are immunoregulatory and promote engraftment of cardiac allografts, but their influence is diminished by TIM-4–dependent programmed cell death.

Authors

Thomas B. Thornley, Zemin Fang, Savithri Balasubramanian, Rafael A. Larocca, Weihua Gong, Shipra Gupta, Eva Csizmadia, Nicolas Degauque, Beom Seok Kim, Maria Koulmanda, Vijay K. Kuchroo, Terry B. Strom

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Figure 3

Compared with oxidation-stressed CD169 APCs, oxidation-stressed TIM-4hiCD169+ macrophages induce higher levels of FoxP3 transcripts, but inferior T cell survival.

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Compared with oxidation-stressed CD169– APCs, oxidation-stressed TIM-4hi...
Live (DAPI) CellTrace Violet–labeled ABM TCR transgenic T cells (DAPICD4+FoxP3/GFP) were cocultured for 4 days with DAPIFITC+CD11b+Ly6CCD169 APCs or DAPIFITC+CD11b+Ly6CCD169+ macrophages from the dLNs of WT FITC painted bm12 mice. (A) Proliferation in gated live CD4+ ABM TCR transgenic (Vα2+Vβ8+) T cells after 4 days of culture, shown in a histogram from a representative experiment. Expansion indices are indicated parenthetically as well as graphically. (B) The ratio of the indicated transcripts in CD169+ relative to CD169 stimulated CD4+Vα2+Vβ8+ TCR transgenic T cells sorted on day 4, shown as mean ± SD from 2 independent experiments on a log2 scale. (C) Frequency (mean ± SD) of CD25hiFoxP3/GFP+ cells within the gated CD4+Vα2+Vβ8+ population in MLRs treated without or with TGF-β (5 ng/ml), from 4–7 independent experiments. (D) Ratio of the indicated cytokines in CD169+ relative to CD169 stimulated MLR cultures, shown as mean ± SD from 2 independent experiments on a log2 scale. Dashed lines are plotted at ±2-fold differences. (E) Percent viability (mean ± SD) of CD4+Vα2+Vβ8+ T cells from MLR cultures. *P < 0.05, 1-way ANOVA (P < 0.05) with Bonferroni post-test.