Abstract
PurposeTo study distinct aspects of human monocyte-derived macrophage (MDM) activation by human corneal tissue as a possible initial stage in human corneal allograft rejection.MethodsHuman monocytes were isolated from peripheral blood mononuclear cells (PBMC) and differentiated into MDM. Human corneas with or without endothelium were fragmented using a standardized protocol. MDM were stimulated with human corneal fragments, corneal fragment supernatant, lipopolysaccharide (LPS) or interferon-gamma (IFNγ), and expression profiles for 34 cytokines were determined in MDM-conditioned media using a Luminex bead-based multiplex assay. Data from clinical aqueous humour samples served for comparison and validation. To assess cell recruitment, immunogenicity of corneal endothelial cells (CEC), monocyte survival and differentiation, we applied transwell migration assays, cell viability assays and fluorescence-activated cell sorting, respectively.ResultsCorneal fragments induced MDM to release distinct cytokines into the medium. Media thus conditioned in vitro by stimulated MDM shared cytokine patterns, namely MCP-1, MIP-1α and MIP-1β, with human aqueous humor samples obtained in human corneal allograft rejection. The presence of CEC in tissue fragments used for MDM stimulation attenuated the upregulation of distinct pro-inflammatory chemokines, like MCP-3 and IL-8, reduced the monocyte survival time, and diminished monocyte-to-macrophage differentiation induced by conditioned media. Distinct anti-inflammatory cytokines, like IL-4 and IL-13, were upregulated in the presence of corneal endothelium. Cornea fragment-stimulated MDMs induced recruitment of monocytes from a PBMC pool in a transwell migration model, modulated immune cell viability and promoted further immune cell recruitment and differentiation.ConclusionsHuman macrophages respond to allogenic corneal tissue and generate an inflammatory milieu. This can drive further recruitment of immunocompetent cells and modulate cell survival and differentiation of the cells recruited. These observations are consistent with the hypothesis that macrophages play a significant role in the initiation of corneal transplant rejection. Our data also indicate that distinct aspects of early human corneal transplant rejection can be modelled in vitro.
Highlights
Corneal transplantation is one of the most common tissue transplantations worldwide [1]
Media conditioned in vitro by stimulated monocyte-derived macrophages (MDM) shared cytokine patterns, namely MCP-1, MIP-1α and MIP-1β, with human aqueous humor samples obtained in human corneal allograft rejection
The presence of corneal endothelial cells (CEC) in tissue fragments used for MDM stimulation attenuated the upregulation of distinct pro-inflammatory chemokines, like MCP-3 and IL-8, reduced the monocyte survival time, and diminished monocyte-to-macrophage differentiation induced by conditioned media
Summary
Corneal transplantation is one of the most common tissue transplantations worldwide [1]. The success of the procedure is limited by immune-mediated transplant rejection: up to 25% of the grafts fail due to corneal graft rejection within the first five years, rejection rates being even higher in high-risk cohorts [2]. An immunological host response against transplanted tissue is the leading cause of corneal graft failure characterized by corneal endothelial cell loss and subsequent graft opacification. The role of the adaptive immune system in corneal graft rejection has been studied extensively, but less is known about the influence of innate immune cells [3,4]. Corneal grafts are able to induce the generation of donor-specific Tregs, which decrease the immune response and improve graft survival [6,7]. Graft rejection can still occur in the absence of CD4+ T cells [8]
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