NADPH diaphorase-positive dendritic profiles in rat thymus are discrete from autofluorescent cells, immunoreactive for inducible nitric oxide synthase, and show strain-specific abundance differences.

Predisposition to autoimmune disorder in Lewis rats has been associated with abnormal hypothalamic regulation of circulating steroids, leading to inadequate suppression of T helper 1 (Th1) cell-mediated inflammatory reactions. In addition, autoimmune syndromes can be triggered within formerly resistant animals, following damage to the negative selection process of the thymus. A contribution to the autoimmune-susceptible phenotype may therefore derive from the status of thymic tolerance. One mechanism of intrathymic negative selection may involve nitric oxide. Because inducible nitric oxide synthase (iNOS) is known to be inhibitable by steroids, its expression might be different within strains having neuroendocrine disturbance. We report on a study to compare intrathymic iNOS expression in autoimmune-prone Lewis rats with other resistant strains. Interdigitating cells (IDC), darkly stained for diaphorase, were confirmed as immunoreactive for iNOS. They were located towards the medullary side of an accumulation of unstained, but autofluorescent cells (presumed to be macrophages) that circumscribes the corticomedullary zone. The role of iNOS+ IDC in the apoptotic deletion of T cells has been suggested by other studies. Despite the blunted steroidal condition reported for Lewis, nitrergic cell abundance was shown, by quantitative analysis of histochemical stain, to be on average approximately twofold lower compared with resistant strains (Fischer and Sprague-Dawley). This trend was evident in males and females, and confirmed by independent observers. We hypothesize that an intrathymic, iNOS-dependent mechanism may be important for the suppression of potentially autoreactive T-cell clones.