BACKGROUND
The cornea is an immune privileged tissue that, when grafted orthotopically, forms the anterior surface of the immune privileged anterior chamber. We have recently reported that allogeneic cornea fragments implanted in the anterior chamber of mouse eyes resist immune rejection, although such graft fragments are rejected outside the eye. We wished to determine the extent to which xenogeneic cornea fragments placed in the eyes of normal mice are vulnerable to immune rejection.
METHODS
Guinea pig corneas, deprived surgically of epithelium, were cut into fragments and inserted into the anterior chamber of eyes of BALB/c and severe combined immune deficient (SCID) mice, adjacent to the central cornea of the recipient. The fate of the grafts was assessed clinically by biomicroscopy and histologically for 8 weeks postimplantation.
RESULTS
The majority of guinea pig cornea fragments devoid of epithelium came to rest with the raw stroma adjacent to recipient endothelium. These fragments remained clear for the 8-week observation interval in both BALB/c and severe combined immune deficient mice. Clear grafts displayed viable guinea pig keratocytes and endothelial cell layers for 4 weeks. The endothelium was then replaced by murine cells by 8 weeks. A minority of guinea pig cornea fragments were oriented with donor endothelium adjacent to recipient endothelium. Although these grafts in severe combined immune deficient eyes eventually acquired an endothelial layer that faces the anterior chamber and remained clear, similar fragments in BALB/c eyes became opaque, failed to acquire a proper lining of endothelium that faces the anterior chamber, and incited an inflammatory reaction in adjacent recipient cornea.
CONCLUSIONS
Immune privilege is afforded to xenografts of guinea pig cornea placed as stromal: endothelial cell fragments in the anterior chamber of mouse eyes, but only if the surface of the fragments that faces the anterior chamber is promptly covered with corneal endothelium. The possible roles of corneal endothelium in promoting immune privilege of corneal xenografts are discussed.