AXL inhibition suppresses early allograft monocyte-to-macrophage differentiation and prolongs allograft survival
Collin Z. Jordan, Matthew Tunbridge, Irma Husain, Hiroki Kitai, Miriam E. Dilts, Olivia K. Fay, Koki Abe, Catherine Xiang, Jean Kwun, Tomokazu Souma, Edward B. Thorp, Xunrong Luo
Collin Z. Jordan, Matthew Tunbridge, Irma Husain, Hiroki Kitai, Miriam E. Dilts, Olivia K. Fay, Koki Abe, Catherine Xiang, Jean Kwun, Tomokazu Souma, Edward B. Thorp, Xunrong Luo
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Research Article Immunology Transplantation

AXL inhibition suppresses early allograft monocyte-to-macrophage differentiation and prolongs allograft survival

Abstract

Innate immune cells are important in the initiation and potentiation of alloimmunity in transplantation. Immediately upon organ anastomosis and reperfusion, recipient monocytes enter the graft from circulation and differentiate to inflammatory macrophages to promote allograft inflammation. However, factors that drive their differentiation to inflammatory macrophages are not understood. Here, we show that the receptor tyrosine kinase AXL was a key driver of early intragraft differentiation of recipient infiltrating monocytes to inflammatory macrophages in the presence of allogeneic stimulation and cell-to-cell contact. In this context, the differentiated inflammatory macrophages were capable of efficient alloantigen presentation and allostimulation of T cells of the indirect pathway. Consequently, early and transient AXL inhibition with the pharmacological inhibitor bemcentinib resulted in a profound reduction of initial allograft inflammation and a significant prolongation of allograft survival in a murine heart transplant model. Our results support further investigation of AXL inhibition as part of an induction regimen for transplantation.

Authors

Collin Z. Jordan, Matthew Tunbridge, Irma Husain, Hiroki Kitai, Miriam E. Dilts, Olivia K. Fay, Koki Abe, Catherine Xiang, Jean Kwun, Tomokazu Souma, Edward B. Thorp, Xunrong Luo

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Figure 4

Transient AXL inhibition leads to a reduction in early allograft inflammation.

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Transient AXL inhibition leads to a reduction in early allograft inflamm...
(A) Experimental design schematic of a mouse heterotopic heart transplantation model, in which congenic (CD45.1+) B6 mice were transplanted with a BALB/c (CD45.2+) heart allograft. Control (CT) recipients received no additional treatment, while recipients in the bemcentinib (BEM) group were treated beginning 1 day prior to transplant until 10 days after transplant or until the predetermined sacrificial time point. (B) Representative flow cytometry plots of recipient heart allograft myeloid cell infiltrate (gated on CD45.1+CD11b+ cells) from day 1, day 3, and day 5 after transplant of CT and BEM recipients demonstrating intragraft F4/80hiLy6C+ iMϕ differentiation kinetics (n = 4–7 per group). (C) Quantification graphs at day 1, day 3, and day 5 after transplant of CT and BEM recipients enumerating iMϕ (n = 4–7 per group). Quantification graph at day 5 after transplant of the ratio of intragraft iMϕs to MCs (n = 5–7 per group), analyzed by Student’s t test. **P < 0.01. (D) Normalized mean fluorescence intensity (MFI) at day 5 after transplant of MHCII and CD86 expression on intragraft iMϕ from CT and BEM recipients (n = 5–7 per group), analyzed by Mann-Whitney sum nonparametric test, *P < 0.05. (E) Heart allograft whole tissue mRNA expression of Il1b, Tnfa, Il6, Il12, Nlrp3, and Aif1 on day 5 after transplant as measured by semiquantitative PCR; normalized to naive donor heart expression of respective transcripts (n = 6–7 per group). Analysis by serial Mann-Whitney sum nonparametric testing. **P < 0.01. Nlrp3, NLR pyrin domain-containing protein 3; Aif1, allograft inflammatory factor 1.