Ultrastructural studies of an immune-mediated inflammatory response in the CNS parenchyma directed against a non-CNS antigen

We have shown previously that heat-killed bacillus Calmette-Guerin injected into the brain parenchyma becomes sequestered behind the blood brain barrier for months undetected by the immune system. However, independent peripheral sensitization of the immune system to bacillus Calmette-Guérin results in recognition of bacillus Calmette-Guérin in the brain and the induction of focal chronic lesions Matyszak M. K. and Perry V. H. (1995) Neuroscience 64, 967 977]. We carried out ultrastructural studies of these lesions. Prior to subcutaneous challenge we used immunohistochemistry to detect bacillus Calmette-Guérin which was found in cells with the morphology of macrophages/microglia and in perivascular macrophages. Eight to 14 days after subcutaneous challenge there was a conspicuous leucocyte infiltration at the site of bacillus Calmette-Guérin deposits within the brain parenchyma. The majority of these cells were macrophages and lymphocytes, with some lymphocytes showing characteristic blast morphology. Dendritic cells in close contact with lymphocytes were prominent. Inflammatory cells were found in perivascular cuffs and within the brain parenchyma. The tissue was oedematous and some axons were undergoing Wallerian degeneration with associated myelin degeneration. Throughout the lesions, but more commonly at the edges, we detected macrophages containing myelin in their cytoplasm close to intact axons and axons with evidence of remyelinating sheaths, suggestive of primary demyelination. In older lesions, two to three months after the peripheral challenge, the oedema was less pronounced and there was little evidence of Wallerian degeneration. There were still many macrophages. lymphocytes and dendritic cells, although the number of these cells was lower than in earlier lesions. Late lesions also contained many plasma cells which were not present in early lesions. In these late lesions there were bundles of axons with no myelin or a few axons with thin myelin sheaths, suggestive of persistent or ongoing demyelination or remyelination. These observations show that, during a delayed-type hypersensitivity lesion in the CNS, the leucocyte populations change with time, and suggest that the mechanisms and type of tissue damage are different in the early and late stages of the lesion.