Microvascular and Cellular Responses in the Retina of Rats with Acute Experimental Allergic Encephalomyelitis (EAE)

The microvascular and cellular responses in the retina during acute EAE were characterized using whole-mount preparations. The earliest detectable event was the accumulation of monocytes and T cells within veins on day 7 postinduction (pi). Mild breakdown of the blood-retinal barrier (BRB), activation of microglia and infiltration of monocytes and T cells into the retinal parenchyma were first evident on days 7 to 8 pi. Monocyte adhesion to the vessel wall and breakdown of the BRB were colocalized in the same vessel segments and occurred predominantly in veins. The marked difference in response observed in the retina versus the myelinated region of the optic nerve suggests that two types of inflammatory cascades are initiated. A mild response, characterised by very low numbers of T cells and monocytes and an absence of expression of MHC class II by resident microglia, is initiated when only small amounts of the encephalitogenic antigen are present in the perivascular space or associated with perivascular antigen-presenting cells. A full blown inflammatory reaction, as observed in the optic nerve, is initiated in the presence of substantial amounts of encephalitogenic antigen. This severe response is characterised by the infiltration of large numbers of CD4⁺, CD8⁺T cells and ED1⁺ monocytes, and by abundant MHC class II expression by resident microglia as well as other cell types. Thus, MHC class II expression by resident microglia may be a possible effective amplifier mechanism if the encephalitogenic antigen is encountered in the tissue parenchyma.