Macrophages play a role in the early phase of corneal allograft rejection in rats.

Background: Rat corneal allograft rejection is delayed by repeated local injection of liposomes filled with clodronate (dichloromethylene diphosphonate), which selectively deplete macrophages. Various administration schedules of liposomes were tested to determine the optimum schedule for prevention of graft rejection. Cell subpopulations in the anterior segment of the eye were studied at different time points after transplantation to assess the kinetics of the immune response.

Effect of local macrophage depletion on cellular immunity and tolerance evoked by corneal allografts.

Unlabelled: Corneal graft rejection can be prevented by local macrophage depletion, via subconjunctival injections with clodronate liposomes. To unravel the underlying immunological mechanism responsible for prolonged graft survival in this circumstance, the effect of this regimen on induction of donor-specific delayed type hypersensitivity (DTH) and anterior chamber associated immune deviation (ACAID) was determined. The study showed that although subconjunctival clodronate liposome-treatment failed to alter systemically induced DTH and ACAID, both types of immune response were absent in clodronate liposome-treated rats after corneal transplantation.

Adhesion molecule expression in local-macrophage-depleted rats bearing orthotopic corneal allografts.

Background: Rejection of corneal grafts is dependent on influx of T lymphocytes and macrophages. This process is partly regulated by adhesion molecules. Earlier investigations showed that corneal graft rejection in rats could be prevented by clodronate liposomes that selectively eliminate macrophages.