Type I interferon enhances γδ intraepithelial lymphocyte migratory behavior via CD47 upregulation

Abstract

Abstract γδ intraepithelial lymphocytes (IEL) migrate along the basement membrane and into the lateral intracellular space (LIS) between adjacent intestinal epithelial cells (IEC) and is critical to limit microbial translocation across the barrier. Although activated γδ IELs produce interferon (IFN)-α, whether IFNα directly influences γδ IEL migratory behavior remains unknown. To test this, intravital microscopy was performed on GFP γδ T cell reporter mice treated with PBS or IFNα (1 μg, i.v., 3h). We found that γδ IEL track speed was increased 30% and migration into the LIS was enhanced by 75% in IFNα-treated mice compared to controls. To identify candidate genes involved in regulating γδ IEL motility, we performed RNAseq on γδ IELs isolated from control and IFNα-treated mice. As expected, IFNα induced IFN-stimulated gene expression including CD47 (3.5-fold increase), a transmembrane protein involved in neutrophil transepithelial migration. Stimulation of ex vivo cultured γδ IELs with IFNα resulted in a 3-fold increase in CD47 expression compared to unstimulated controls. Next, to investigate whether IFNα enhances γδ IEL motility in vitro, GFP γδ IELs were co-cultured with enteroids expressing membrane tdTomato and treated with 10ng/ml IFNα for 3h. IFNα increased γδ IEL speed (4.5±0.2 vs 3.4±0.2 μm/min; p<0.05) and displacement (47±3.0 μm vs 34±3.1, p<0.05) relative to untreated controls. Addition of anti-CD47 blocking antibody (MIAP301) abrogated the IFNα-mediated increase in γδ IEL migratory behavior. Taken together, these data demonstrate that IFNα enhances γδ IEL motility via a CD47-mediated mechanism, and suggests that CD47 may represent a conserved mechanism of leukocyte migration within the epithelial barrier.