Adoptive transfer of the entire gld (generalized lymphoproliferative disease) syndrome in nude beige mice by a single gld thymocyte graft.

C57BL/6 nude beige mice (B6 nubq; no T cell, no NK activity) were used as recipients for the adoptive transfer of thymocytes from B6 gld mice (generalized lymphoproliferative disease) which are a model of systemic lupus erythematous. The [gld----nubg] chimeras showed several similarities with gld control mice including the T cell disorders (lymphoproliferation and Con A-response deficiency of splenocytes) and B cell disorders (hyperglobulinemia and elevated anti-single-stranded DNA antibody titers). This suggests that the gld lymphoproliferative disorder has a thymic origin (and does not result from an abnormally extrathymic T cell development) and that the gld T cells have an essential role for the emergence of the disorders of both the T and B cells.     

Increased membrane immunoglobulin capping of B cells from C57Bl/6 lpr/lpr and C57Bl/6 nu/nu mice

When the capping of membrane immunoglobulin on spleen B cells from normal C57Bl/6 mice (B6) is taken as reference, a faster capping rate is found for cells of age-matched B6 mice which are congenic at the lymphoproliferation (lpr) or nude (nu) loci. Though both congenic strains can be characterized by an abnormal T-lineage cell content, the nature of the abnormality itself is very different since B6 nudes lack thymus-processed/influenced lymphocytes whereas B6 mice with the lpr phenotype suffer from an invasion of all lymphoid organs with cells of a particular T-cell subset. Moreover, the more "normal" capping rate of B cells from the double congenic B6 mice (nu/nu, lpr/lpr) is intriguing. Since other mice homozygous at the lpr locus (MRL-1) or at the nu locus (BALB/c nude) also cap faster than their congenic controls (MRL-n and BALB/c, respectively), the observed effects do not appear to depend on a peculiarity of the B6 genetic background. If the faster capping of B cells of nu congenic and of lpr congenic mice had a common origin, it might be that T cells would control in some way the mobility of B-cell membrane immunoglobulins: both congenic mice have in their spleen a very low proportion of mature T cells together with a very high proportion of prethymic/thymic immature T-cell types, either of which might affect B-cell behavioral responses to membrane immunoglobulin clustering.     

The restoration of the T-lymphoid system of nude mice: lower efficiency of nonlymphoid, epithelial thymus grafts.

The T-cell deficiency of nude mice is due to an abnormal differentiation of the thymus epithelium; it can be persistently corrected by grafting a neonatal thymus. However, grafted adult thymuses or epithelial thymuses are not repopulated by large numbers of host-derived lymphocytes, as is the case when a whole neonatal thymus is grafted. Furthermore, the repopulation of the spleen and lymph nodes by T cells is less pronounced than after whole neonatal thymus transplantation, and the restoration of the reactivity to T-cell mitogens is irregular. Therefore, the integrity and the age of the thymus graft are important for a good restoration of the T-lymphoid system of congenitally athymic animals.