The relationship between acute and chronic graft-versus-host disease (GVHD) is not well understood. While both syndromes appear to result from recognition of host antigens by donor T cells, their pathological changes differ markedly. In light of the recent concept that helper T cells (Th) may be divided into two types based on their cytokine secretion profile and their ability to mediate cellular (Th1) or humoral (Th2) immunity, and considering the inflammatory nature of acute GVHD and the occurrence of significant B cell activation in chronic GVHD, we hypothesized that acute and chronic GVHD may be associated with differential cytokine production by activated T cells. To evaluate this hypothesis, we assessed expression of a range of cytokines in (C57BL/6 x DBA/2)F1 (B6D2F1) recipients of C57BL/6 (acute GVHD), DBA/2 (chronic GVHD) or B6D2F1 (control) spleen cells. The results reported here indicate that a wide range of cytokines, including interleukin (IL)-4, IL-10, interferon-gamma, tumor necrosis factor beta and macrophage inflammatory protein-1 alpha, are indeed differentially expressed in acute and chronic GVHD and support the concept that the pathology peculiar to acute or chronic GVHD may arise due to differential cytokine expression by activated T cells.
SummaryHomozygosity for either of the lymphoproliferation (lpr) or generalized lymphoproliferative disease (g1d) mutations o£ mice causes the development of systemic lupus erythematosus-like autoimmune syndromes that are characterized by severe lymphadenopathy and highly elevated serum immunoglobulin levels. Although the mutations are nonallelic, analysis of homozygous lpr/lpr and gidlgld mice on the same strain background has indicated that the pathology and severity of the autoimmune syndromes induced by these mutations are indistinguishable. To explain this, it has previously been suggested that lpr and gld may represent mutations in molecules involved in sequential steps of an intracellular metabolic pathway of T cells . We have now investigated the behavior ofboth lpr and gld in a variety ofbone marrow chimeras and have found that functional differences between lpr and gld become apparent after bone marrow transfer. Transfer of lprllpr bone marrow to irradiated congenic + /+ recipients caused the development of a graft-vs.-host-like lymphoid wasting syndrome, whereas transfer ofgld/gld bone marrow to + /+ recipients resulted in development ofagld-like autoimmune syndrome. Additionally, gld/gld hosts behaved like + /+ hosts irrespective of the genotype of the donor bone marrow, whereas lpr/lpr hosts behaved unlike + /+ hosts when reconstituted with either lpr/lpr, gld/gld, or + /+ bone marrow. These are the first clear differences between these two mutations yet described . Our studies indicate that the molecule altered by theg1d mutation is expressed only by bone marrow-derived cells, whereas the molecule altered by the lpr mutation is expressed by both bone marrow-derived cells and by one or more peripheral radioresistant cell populations. To reconcile these differences with the fact that homozygous lpr/lpr and gld/gld mice are indistinguishable, we suggest an alternative model for the relationship between the lpr and gld mutations in which the two molecules affected represent an interacting ligand-receptor pair expressed by different cells .
Graft-versus-host disease (GVHD) is the major complication occurring after bone marrow transplantation. The severity of GVHD varies widely, with this variation generally being attributed to variation in the degree of disparity between host and donor for minor histocompatibility antigens. However, it is also possible that other forms of polymorphism, such as polymorphisms in immune effector molecules, might play a significant role in determining GVHD severity. In order to investigate this hypothesis, we are studying the genetic factors that influence GVHD development in a murine model. We here report the first results of this analysis, which demonstrate that a locus on Chromosome 1 of the mouse, and possibly also a locus on Chromosome 4, exert considerable influence over the development of one aspect of acute GVHD - splenomegaly - in a parent-->F1 murine model. These results demonstrate that non-MHC genes can exert quite significant effects on the development of GVHD-associated pathology and that gene mapping can be used as a tool to identify these loci. Further analysis of such loci will allow identification of the mechanism whereby they influence GVHD and may lead in the future to improved selection of donors for human bone marrow transplantation.
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