CD3+ T cells in severe combined immunodeficiency (SCID) mice. V. Allogeneic T cells engrafted into SCID mice do not induce graft-versus-host disease in spite of the absence of host veto and natural suppressor cell activity

Increased intracellular Th1 cytokines in scid mice with inflammatory bowel disease

Severe combined immunodeficient (scid) mice engrafted with small pieces of full thickness gut wall from immunocompetent syngenic donors develop a chronic and lethal colitis. Lymphocytes from the lamina propria of engrafted mice were analyzed for phorbol ester/ionomycin-induced cytokine production by intracellular staining. A 4-5-fold increase in the fraction of IFN-gamma-producing CD4+ lamina propria T cells was found in moderately and severely diseased mice when compared to healthy congenic C.B-17 control mice. The number of IL-2-producing T cells was increased by approximately 2-fold when comparing mice suffering from severe disease to healthy control mice. The fraction of TNF-alpha positive CD4+ T cells was increased by a factor of two in both moderately and severely diseased mice. When analyzing Th2 cytokines, it was found that the levels of IL-4-producing CD4+ T cells was not altered in diseased animals, whereas the fraction IL-10-producing CD4+ T cells was reduced by a factor of 20. The combined data showed a 15-25-fold increase in the Th1/Th2 ratio of diseased mice when compared to healthy control mice. No intracellular cytokines could be detected in lymphocytes not treated with phorbol ester/ionomycin. The present data identify a prominent role for Th1-type T helper cells in the immunopathogenesis of gut wall graft-induced inflammatory bowel disease in scid mice.

Acute graft-versus-host reaction in SCID mice leads to an abnormal expansion of CD8+ V beta 14+ and a broad inactivation of donor T cells followed by a host-restricted tolerance and a normalization of the TCR V beta repertoire in the chronic phase

The persistence and selection of allogeneic CBA/J T lymphocytes were studied during graft-versus-host (GvH) reaction in immunodeficient C.B-17 SCID (SCID) mice. After neonatal injection the donor cells primarily migrated to the spleen plus lymph nodes (SL) and the thymus of the recipients. Thirteen days post engraftment, CD8+ cells in SL had increased five times in cell number with an 18-fold increase of CD8+ V beta 14+ cells, paralleled by clinical signs of GvH disease (GvHD). Donor lymphocytes from these mice were proliferative unresponsive to allogeneic Balb/c or C57Bl/6 SL cells, whereas 8 weeks post injection the tolerance was confined to H-2d specific donor cells. Here, spleens had a total cell content similar to untreated SCID mice but the average percentage of donor cells had reached 25%. Moreover, the CD4/CD8 cell ratio in the donor population in SL and thymus had changed to normal and the TCR V beta repertoire was similar to that of the originally injected cells. Following secondary transfer into syngeneic CBA/Ca nu/nu recipients donor cells regained a significant but reduced response to H-2d stimulators indicating that the antigen specific tolerance of allogeneic donor cells in the SCID mice was due, at least in part, to a reversible state of anergy.

Autoimmunity versus allo- and xeno-reactivity in SCID mice

The ability of SCID mice to accept xenografts has been exploited to study the survival, function and potential of peripheral blood mononuclear cells (PBMC) from patients with autoimmune disorders to produce tissue injury in the mouse. Studies performed with PBMC obtained from patients with organ specific and multisystem autoimmune diseases indicate that human PBMC survive in SCID mice for several months, produce IgG and autoantibodies with the same specificities as are found in the donor. Tissue injury is not generally observed in the SCID mouse recipient. SCID mice have also been partially reconstituted with bone marrow from BB (diabetic) and MRL (lupus) mice. SCID mice injected with both spleen cells from mice with collagen induced arthritis together with native bovine collagen developed more severe arthritis than the donors. SCID mice have therefore proven to be a useful resource to study autoimmunity. In both xeno- and allografts of mature lymphocytes, graft versus host reactions occur. Further studies will be necessary to improve donor cell survival without aggravating graft versus host disease.

Selective engraftment of memory CD4+ T cells with an unusual recirculation pattern and a diverse T cell receptor-V beta repertoire into scid mice

Young (H-2d, Ld+) severe combined immunodeficiency (scid) mice were injected intravenously with 10(5) CD4+CD8- T cells purified from spleen, thymus or lymph nodes (LN) of dm2 (H-2d, Ld-) donor mice. In the immunodeficient recipients, the lymphoid compartment in the splenic white pulp was repopulated with donor-type T cells and cellularity in the red pulp was increased. In addition, donor-type CD4+ T cells repopulated the peritoneal cavity, mesenteric LN and the lamina propria of the small intestine of scid mice, but were undetectable in thymus and peripheral (inguinal, axillary) LN. Histological examination of repopulated mesenteric LN showed expanded subcapsular sinuses, repopulated cortical areas, but poorly developed high endothelial venules (HEV) indicating deficient blood-LN lymphocyte recirculation. The engrafted CD4+ T cell population had the surface phenotype of memory T cells (CD44/Pgp-1high CD45RB(low) and expressed the Peyer's patch HEV-specific homing receptor CD49d (LPAM-1), but not the LN HEV-specific homing receptor LECAM-1. The CD4+ T cell population in spleen and mesenteric LN of transplanted scid mice displayed a diverse T cell receptor-V beta repertoire. Transfer of titrated numbers (10(3), 10(4), 10(5) cells per mouse) of CD4+ T cells into scid mice established donor-type T cell populations with this unusual homing pattern in all recipients. Repeated serial transfers of dm2 CD4+ T cells through young scid mice revealed an extensive in vivo expansion potential of transferred cells for > 18 months. The experimental system described represents an in vivo model to study the functional competence and the differentiation potential of a murine memory CD4+ T cell subset.